CN113293532B - Material preparation device, sewing equipment and control method of sewing equipment - Google Patents

Abstract

The embodiment of the application provides a material preparation device, a sewing device and a control method of the sewing device. The material preparation device comprises a frame, a workbench, an execution assembly and a presser foot component. The frame is used for being detachably connected with the sewing device; the operation table is arranged on the frame and used for placing materials; the execution assembly is arranged on the workbench and is used for executing folding action to drive the material to be folded in half so that two end parts of the material are overlapped; the presser foot component is arranged on the workbench and is used for cooperating with the execution component to execute the action of maintaining the overlapping relation of the two ends after the execution component completes the folding action, so that the sewing device can execute the sewing action and connect the two ends. According to the technical scheme, the material preparation device can be detachably connected with any sewing device, the structure is flexible, the material preparation device is suitable for butt-joint sewing of a small amount of materials, and the material processing efficiency is higher.

Description

Material preparation device, sewing equipment and control method of sewing equipment

Technical Field

The application relates to the technical field of computers, in particular to a material preparation device, a sewing device and a control method of the sewing device.

Background

At present, the thread-splicing round collar in the sewing industry is automatically spliced in the form of whole cloth, and is equipment in the form of a special machine. The special machine type equipment takes the whole roll of fabric as a processing object, firstly cuts the whole roll of fabric, and then splices the cut fabric, so that the special machine type equipment is not suitable for small-sized quick-change factories. The small form quick-change factories are all in a manual splicing mode, so that the efficiency is low.

Disclosure of Invention

The embodiment of the application provides a material preparation device, a sewing device and a control method of the sewing device, which can solve or improve the problems.

In one embodiment of the present application, a stock device is provided. The material preparation device comprises:

the frame is used for being detachably connected with the sewing device;

the operation table is arranged on the rack and used for placing materials;

the execution assembly is arranged on the workbench and is used for executing folding action to drive the material to be folded in half so that two end parts of the material are overlapped;

and the presser foot component is arranged on the workbench and is used for cooperating with the execution component to execute the action of maintaining the overlapping relation of the two ends after the execution component completes the folding action, so that the sewing device can execute the sewing action and connect the two ends.

In another embodiment of the present application, a sewing apparatus is provided. The sewing equipment comprises a sewing device and a material preparation device; the material preparation device is detachably connected with the sewing device; wherein,

the material preparation device comprises:

the operation table is used for placing materials;

the execution assembly is arranged on the workbench and is used for executing folding action to drive the material to be folded in half so that two end parts of the material are overlapped; and

a presser foot member provided on the work table and cooperating with the execution unit for executing an operation of maintaining the overlapping relationship of the two ends after the execution unit completes the folding operation;

the sewing device is used for performing sewing actions at the two overlapped ends so as to connect the two ends of the material.

In yet another embodiment of the present application, a sewing apparatus is provided. The sewing equipment comprises a pattern machine and a material preparation device; the material preparation device is detachably connected with the pattern machine; wherein,

the material preparation device comprises:

the operation table is used for placing materials;

the execution assembly is arranged on the workbench and is used for executing folding action to drive the material to be folded in half so that two end parts of the material are overlapped;

a presser foot member provided on the work table and cooperating with the execution unit for executing an operation of maintaining the overlapping relationship of the two ends after the execution unit completes the folding operation;

the pattern sewing machine is used for performing sewing actions at the two overlapped ends so as to connect the two ends of the material.

In yet another embodiment of the present application, a method of controlling a sewing apparatus is provided. The control method comprises the following steps:

responding to a starting instruction, controlling an execution assembly to execute a folding action so as to drive the material to be folded in half so that two end parts of the material are overlapped;

after the execution assembly completes the folding action, the presser foot component is controlled to execute the action of maintaining the overlapping relation of the two ends;

and sending an instruction to a sewing device so that the sewing device can execute a sewing action according to the instruction, and connecting the two ends of the material.

According to the technical scheme provided by the embodiment of the application, the material preparation device is detachably connected with the sewing device, so that the two devices are connected together to work when needed, and the two devices do not need to be detached, so that the sewing device can be restored to the original sewing work; therefore, the equipment provided by the scheme has flexible structure and is suitable for the task of butt joint sewing (such as round collar splicing sewing) of a small amount of materials. In addition, in the technical scheme that this application embodiment provided, through setting up execution assembly and presser foot part on the workstation, can realize automatic folding and the fixed of material, need not artifical folding, the mode of manual folding concatenation is adopted than current, and efficiency is higher.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, a brief description will be given below of the drawings that are needed to be utilized in the embodiments or the prior art descriptions, and it is obvious that the drawings in the following description are some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a sewing machine according to an embodiment of the present disclosure, illustrating a configuration of a material preparation device and a sewing device when the material preparation device is not connected to the sewing device;

FIG. 2 is a schematic structural view of a sewing apparatus according to an embodiment of the present disclosure after a material preparation device is connected to a sewing device;

FIG. 3 is a schematic top view of a material preparation device according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a partial area of a stock preparation device according to an embodiment of the present disclosure;

FIG. 5a is a schematic view of an embodiment of the present application with a stop plate not actuated and a material end not forming a spigot;

FIG. 5b is a schematic view of an embodiment of the present application after stopping the motion of the mouth guard and forming a seam allowance at the end of the material;

fig. 6 is a schematic structural diagram of a partial area of a stock preparation device according to an embodiment of the present disclosure;

FIG. 7 is another schematic view of a partial area of a stock device according to an embodiment of the present disclosure;

FIG. 8 shows a schematic view of the preparation device after placement;

fig. 9 is a flowchart of a control method of a sewing device according to an embodiment of the present application.

Detailed Description

In order to enable those skilled in the art to better understand the present application, the following description will make clear and complete descriptions of the technical solutions in the embodiments of the present application with reference to the accompanying drawings in the embodiments of the present application.

In some of the flows described in the specification, claims, and drawings described above, a plurality of operations occurring in a particular order are included, and the operations may be performed out of order or concurrently with respect to the order in which they occur. The sequence numbers of operations such as 101, 102, etc. are merely used to distinguish between the various operations, and the sequence numbers themselves do not represent any order of execution. In addition, the flows may include more or fewer operations, and the operations may be performed sequentially or in parallel. It should be noted that, the descriptions of "first" and "second" herein are used to distinguish different components, actions, modules, etc., and do not represent a sequential order, nor do they limit that "first" and "second" are different types. Furthermore, the embodiments described below are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

At present, the thread-splicing round collar in the sewing industry is automatically spliced in the form of whole cloth, and is also equipment in the form of a special machine, so that the thread-splicing round collar is not suitable for small-sheet quick-change factories. The special machine type equipment firstly cuts Cheng Yuanling strips of the thread cloth through the feeding and cutting mechanism, then is spliced and folded through the two ends of the material pulling and folding mechanism, and finally the single round collar is sewn. Therefore, the embodiments described below are directed to cut materials, so that the fabric cost of the small-sized quick-change processing factory is not increased, the material preparation device and the sewing device are assembled together when the splicing processing is needed, and the sewing equipment can be restored to the original sewing task or be connected with other forms of material preparation devices when the splicing processing is not needed, and the like.

Before describing the whole sewing equipment, the structure of the material preparation device which can be detachably connected with the sewing device is described below. The stock device may be used in connection with one or more types of sewing equipment, and embodiments of the present application are not particularly limited thereto.

Referring to fig. 1, the stock preparation device 100 includes: a frame 1, a work table 2, an execution assembly 3 and a presser foot member 5. Wherein the frame 1 is adapted to be detachably connected to a sewing device 4. The workbench 2 is arranged on the frame 1 and is used for placing materials. The execution assembly 3 is arranged on the workbench 2 and is used for executing folding action to drive the material to be folded in half so that two ends of the material are overlapped. The presser foot member 5 is provided on the work table 2 and cooperates with the execution unit 3 to perform an operation of maintaining the overlapping relationship of the two ends after the execution unit 3 completes the folding operation, so that the sewing device 4 performs a sewing operation to connect the two ends.

The frame 1 can be detachably connected through a positioning pin, a self-locking buckle and other structures. As shown in fig. 1, the frame 1 is provided with at least one positioning pin, and when there are two or more positioning pins 6, the size and/or cross-sectional shape of the positioning pins 6 may be different. Correspondingly, the sewing device 4 is provided with corresponding positioning holes. The frame 1 is also provided with at least one self-locking hasp 7, and a locking structure matched with the self-locking hasp 7 is arranged at a corresponding position on the sewing device 4. When in connection, the frame 1 and the sewing device 4 can be firstly in butt joint through the positioning pin 6 and the positioning hole, and then the self-locking hasp 7 is connected with the locking structure so as to fixedly connect the frame 1 and the sewing device 4. The bottom of the frame 1 can be provided with a cup-shaped adjusting wheel 8 with feet, so that the frame can be pushed to change positions at will, the frame can be immovable after the positions are fixed, and the height of the frame can be adjusted to be matched with the height of the sewing equipment. Of course, the sewing device can also be provided with a cup-shaped adjusting wheel with feet. The structure of the cup-shaped adjusting wheel 8 is not limited to this embodiment, and may be any structure in the prior art.

In one implementation, the execution assembly 3 may be implemented using the structure shown in fig. 3. Specifically, referring to fig. 3, the actuating assembly 3 includes a pressing plate mechanism 31 and a folding mechanism 32. Wherein the pressing plate mechanism 31 is adapted to perform a first action to press a first portion of the material. The folding mechanism 32 is configured to drive the second portion of the material to move toward the end of the first portion after the pressing mechanism 31 presses the first portion of the material until the end of the second portion of the material overlaps the end of the first portion.

More specifically, the platen mechanism 31 includes a material platen 311 and a first driving member 312. The first driving component 312 is connected to the material pressing plate 311, and is used for driving the material pressing plate 311 to perform the first action, and is also used for driving the material pressing plate 311 to perform the second action to release the pressed material. The first driving part may include: and a driving device for respectively outputting power in at least two directions. For example, the driving means may include, but is not limited to, at least one of the following: cylinder, pneumatic cylinder, lead screw motor.

For example, in the solution shown in fig. 4, the first driving unit 312 includes: the device comprises a driving device (such as a cylinder or a screw motor and the like) for driving the material pressing plate to move along the X direction in the drawing, and a driving device (such as a cylinder or a screw motor and the like) for driving the material pressing plate to move along the Y direction in the drawing.

In specific implementation, the number of the pressing plate mechanisms 31 may be plural; the plurality of platen mechanisms 31 are arranged along the folding direction of the material. Referring to the example shown in fig. 4, there are two pressing plate mechanisms 31, and the two pressing plate mechanisms 31 are arranged along the folding direction of the material, i.e. in the Z direction in fig. 4.

Further, as shown in fig. 4, the table 2 is provided with an adjusting plate 9 and a second driving member 10. The adjusting plate 9 is used for placing the material, is matched with the material pressing plate 311 when the executing assembly 3 executes folding action, fixes a first part of the material between the material pressing plate 311 and the adjusting plate 9, and is positioned between the first part and the second part of the material after the material is folded in half. The second driving part 10 is connected to the adjusting plate 9 for driving the adjusting plate 9 to move so as to withdraw from between the first part and the second part after the presser foot part completes the maintaining action. As in the solution shown in fig. 4, the adjustment plate 9 is movable in the direction X in fig. 4 under the action of the second drive member 10. For example, when the material pressing plate 311 is required to press the material, the second driving member 10 drives the adjusting plate 9 to move in the negative direction of the X direction, i.e., the direction indicated by the symbol "-" of X in fig. 4; when it is desired to withdraw from between the first portion of folded material and the second member, the second driving member 10 drives the adjustment plate 9 in the positive direction of the X-direction, i.e. in the direction marked "+" of X in fig. 4. Wherein the second driving part may be: the cylinder, the hydraulic cylinder, the screw motor, and the like, which are not particularly limited in this embodiment.

The number of the adjustment plates 9 may be plural as with the platen mechanism 31. The number of the adjusting plates 9 may be the same as or different from the number of the material pressing plates 311. Fig. 4 shows a case where the number of the adjustment plates 9 is different from the number of the material pressing plates 311. In fig. 4, the number of the adjustment plates 9 is 3, and the number of the material pressing plates 311 is 2. Referring to fig. 3, the adjustment plate 9 and the material pressing plate 311 may be disposed in a staggered manner.

The mode of arranging the plurality of pressing plate mechanisms and the plurality of adjusting plates can be suitable for processing materials with different sizes, in particular for folding materials with different lengths; for example, long materials can be folded across three adjusting plates, and a plurality of pressing plate mechanisms work simultaneously; the short is foldable across two adjustment plates and portions of the plurality of platen mechanisms are operable.

Further, in the material preparation device provided in this embodiment, the executing assembly 31 further includes a dog-ear mechanism 33. As shown in fig. 4, the edge folding mechanism 33 is used for driving one of the two ends of the material to fold to form an edge. Specifically, the tuck-back opening mechanism 33 includes: a spigot press plate 331, a spigot baffle 332, and a third driving member. The spigot press plate 331 is located at an end of the first portion of the material, and the end of the first portion exceeds the spigot press plate 331. The spigot flap 332 is in contact with an end portion of the first portion beyond the spigot pressure plate 331. The third driving part is connected with the spigot baffle 332 and is used for driving the spigot baffle 332 to move towards the opposite direction of folding the material, so that the spigot baffle 332 pushes the end part of the first part to bend to form the spigot. The third driving part is used for driving the spigot pressing plate 331 to act so as to withdraw from the spigot. Referring to fig. 4, the third driving unit may include two driving devices, wherein one driving device (reference numeral 333 in the drawing) is used for driving the spigot flap 332 to move along the Z direction in the drawing, and the other driving device (reference numeral 334 in the drawing) is used for driving the spigot press plate 331 to move along the X direction in the drawing.

In particular, when the worker discharges, one end of the material is placed under the spigot pressing plate 331, and the head of the material extends beyond the spigot pressing plate 331 and is located above the spigot baffle 332, as shown in fig. 5 a. One part of the material is placed on the adjusting plate 9 and the end of the other part is folded under the adjusting plate 9 by a folding mechanism 32, as shown in fig. 5 a. When the third driving member outputs driving force, as shown in fig. 5b, the spigot flap 332 will drive the upper material end to fold out the spigot along the spigot pressing plate 331.

In addition, the folding mechanism 32 in the present embodiment may include a folding plate 322 and a fourth driving part 323, as shown in fig. 2, 3, 4, 6, and 7. Wherein, the folding plate 322 is provided with a first through hole 3221; wherein the end of the second portion of material penetrates from the first through hole 3221 and naturally sags. For the big material of elasticity comparison, let material part freedom sagging through first through-hole 3221, can overcome the elasticity of material for the material after the fifty percent discount is more level and smooth. A fourth driving part 323 is connected to the folding plate 322 for driving the folding plate 322 to move in a folding direction so that the second portion moves toward the end of the first portion until the second portion end of the material overlaps the first portion end.

As shown in fig. 3, 4 and 6, the presser foot member 5 in this embodiment includes a fifth driving member 51 and a material presser foot 52. Wherein the fifth driving part 5 is used for outputting power in at least one direction; the material presser foot 52 is connected to the fifth driving member 51, and is configured to perform an operation of maintaining the overlapping relationship between the two ends under the driving of the fifth driving member 51. Further, the material presser foot 52 is provided with a sewing gap 53; the sewing needle of the sewing device may pass through the sewing slit 53 to stitch the overlapped both ends.

As shown in fig. 3, the work table 2 has a loading area 21 and a sewing area 22; the actuating assembly 3 is located in the loading area 31; the presser foot member 5 also has a material moving action to move the material overlapped at both ends from the loading area 21 to the sewing area 22. That is, as shown in fig. 3, the fifth driving part 51 drives not only the material presser foot 52 to move in a direction perpendicular to the paper surface of fig. 3, but also the material presser foot 52 to move in the X direction in fig. 3.

Further, as shown in fig. 2 and 3, the working table 2 is provided with a second through hole 23; the second through hole 23 is adjacent to the sewing zone 22 so that the remaining portion of the material freely sags through the second through hole 23 when the overlapped two ends of the material are located at the sewing zone 22. Correspondingly, the material preparation device further comprises a material box 24, and the material box 24 is communicated with the second through hole 23. Thus, after the sewing of the material is completed, the material box 24 can be accessed through the second through hole 23.

Further, as shown in fig. 2, the sewing zone 22 is provided with an assembly 25 that cooperates with the sewing mechanism of the machine sewing device to perform a sewing action. The mating components herein may also be different for different types of sewing devices, and this embodiment is not particularly limited. In a specific implementation, the component of the embodiment that cooperates with the sewing device to perform the sewing operation can be replaced as a removable piece.

Further, the number of the loading areas 21 in this embodiment may be plural, and the execution assembly 3 is disposed in each of the plural loading areas. The number of the presser foot members 5 may be one or plural. If one presser foot part is needed, the material moving range of the presser foot part is large, and the structural design complexity of the material preparation device is high. The plurality of presser foot members have a small material moving range, and the structural design complexity of the material preparation device is low. The presser foot members cooperate to sequentially move material in the plurality of loading areas to the sewing area.

As shown in the structure of fig. 3, the loading areas 21 are two; two of the loading areas 21 are located on either side of the sewing area 22 in a first direction (i.e., the X-direction in fig. 3); the execution assemblies 3 are arranged in the two charging areas 21; the direction in which the execution assembly 3 folds the material is a second direction (i.e., Y direction in fig. 3), which is perpendicular to the first direction; the number of the presser foot members 5 is two, and both the presser foot members 5 have a material moving motion along the first direction (i.e., the X direction in fig. 3).

The following embodiments provide a sewing apparatus. As shown in fig. 1 and 2, the sewing apparatus includes a sewing device 4 and a stock device 100. Wherein, the material preparation device 100 is detachably connected with the sewing device 4. The stock preparation device 100 includes: a work table 2, an actuator 3 and a presser foot member 5. Wherein the workbench 2 is used for placing materials. The execution assembly 3 is arranged on the workbench 2 and is used for executing folding action to drive the material to be folded in half so that two ends of the material are overlapped. The presser foot member 5 is provided on the work table 2 and cooperates with the execution unit 3 to execute an operation of maintaining the overlapping relationship of the two ends after the execution unit 3 completes the folding operation. The sewing device 4 is used for performing sewing actions at the two overlapped ends so as to connect the two ends of the materials.

The structure of the material preparation device in this embodiment may be referred to the structure in the above embodiment, and details are not described in this embodiment.

The sewing device comprises a machine head; the machine head is provided with a sewing mechanism; the nose extends above the work table 2 as shown in figure 2. The workbench 2 is provided with a loading area 21 and a sewing area 22; as shown in fig. 3. The head of the sewing device 4 is positioned above the sewing zone 22; the actuating assembly 3 is located in the loading area 21; the presser foot member 5 also has a material moving action to move the material overlapped at both ends from the loading area 21 to the sewing area 22.

One implementation form is that the sewing device is provided with a sensor (not shown in the figure); the sensor is used for detecting whether the material to be sewn is in place or not; after the sensor detects that the material is in place, the sewing device executes the sewing action. Alternatively, in another implementation manner, the second communication component is disposed on the sewing device 4 and is in communication connection with the first communication component on the stock preparation device 100, and the sewing device 4 executes the sewing action after receiving the instruction sent by the stock preparation device 100 through the second communication component.

The sewing device in the above embodiment may be a pattern sewing machine. That is, a further embodiment of the present application provides a sewing apparatus. The sewing equipment comprises a pattern machine and a material preparation device; the material preparation device is detachably connected with the pattern machine. Wherein, the device of prepareeing material includes: a workbench, an execution assembly and a presser foot component. The operation table is used for placing materials; the execution assembly is arranged on the workbench and is used for executing folding action to drive the material to be folded in half so that two end parts of the material are overlapped; the presser foot component is arranged on the workbench and is used for cooperating with the execution component to execute the action of maintaining the overlapping relation of the two ends after the execution component completes the folding action. The pattern sewing machine is used for performing sewing actions at the two overlapped ends so as to connect the two ends of the material.

In this embodiment, the connection between the pattern machine and the material preparation device may refer to the corresponding content in each embodiment, and details of the specific implementation structure of the material preparation device are not described herein.

The working principle of the sewing apparatus according to the embodiments of the present application will be described below with reference to fig. 1 to 8, taking a sewing device as an example of a pattern machine.

Preparation: the pattern machine (i.e. the sewing device 4 is shown in the figure) with the presser foot (such as the presser foot suitable for sewing threaded cloth) replaced is positioned by the positioning pin and the relative position of the material preparation device 100, and after the positioning, the self-locking hasp 7 is locked in the condition shown in fig. 3. The height adaptation of the pattern machine and the material preparation device is adjusted through the cup-shaped adjusting wheel with the feet. After the preparation is completed, the device may be started. After the equipment is started, the action flow of the sewing equipment is as follows:

s1, arranging the cut threads at a specified position, and pressing a start switch.

As shown in fig. 8, a thread cloth is placed on the adjustment plate, one end of the thread cloth passes through and protrudes from below the spigot pressing plate 331, and the end is higher than the spigot barrier 332. The other end of the thread cloth passes through the first through hole 3221 of the folding plate 322 and naturally sags.

S2, the first driving part 312 drives the material pressing plate 311 to press the threaded cloth.

S3, the fourth driving part 323 drives the folding plate 322 to push the naturally-drooping threaded cloth strip, so that the other end of the threaded cloth strip moves towards the direction of the spigot pressing plate 331 to be folded, and two ends of the threaded cloth strip are overlapped.

S4, the third driving part 333 drives the spigot baffle 332 to act so as to fold the upper layer of the threaded cloth out of one spigot.

S5, the fifth driving part 51 drives the material presser foot 52 to press the position with the seam allowance, where the thread cloth strips are overlapped.

S6, the first driving part 312 drives the material pressing plate to retract (namely, the pressing of the thread cloth strip is removed); the third driving part 333 drives the spigot baffle 332 and the spigot press plate 331 to be drawn out from the thread cloth; the second driving part 10 drives the adjusting plate 9 to be drawn out from the screw cloth.

S7, the fifth driving part 51 drives the material presser foot to act so as to move the thread cloth strip to the sewing area.

S8, after the thread cloth strip is moved to the sewing area, the overlapped position with the seam allowance (namely the position needing sewing) corresponds to the sewing gap on the material presser foot 52.

S9, starting the pattern machine, and enabling a sewing needle to pass through the sewing gap to stitch the overlapped threaded cloth strip ends to be sewn.

S10, after the sewing, the sewn threaded cloth collar can be adjusted into the material box through the second through hole.

What is needed here is that: the materials processed in the solutions provided in the embodiments of the present application may be knitted materials, or may be any other materials, such as nonwoven materials, which are not specifically limited in this embodiment.

The application also provides an embodiment, as shown in fig. 9, of a control method of the sewing device. The execution subject of the method may be a controller on the preparation device. What is needed here is that: the specific structure of the components, assemblies, etc. involved in the following steps and the connection relationship between any two components or assemblies can be referred to the corresponding content in the above embodiments, and will not be described herein. As shown in fig. 9, the control method of the sewing apparatus includes:

101. responding to a starting instruction, controlling an execution assembly to execute a folding action so as to drive the material to be folded in half so that two end parts of the material are overlapped;

102. after the execution assembly completes the folding action, the presser foot component is controlled to execute the action of maintaining the overlapping relation of the two ends;

103. and sending an instruction to a sewing device so that the sewing device can execute a sewing action according to the instruction, and connecting the two ends of the material.

The step 101 of "the control executing component executes the folding action" may specifically include:

1011. controlling a pressing plate mechanism in the execution assembly to act so as to press the first part of the material;

1012. and controlling a folding mechanism in the execution assembly to act so as to drive the second part of the material to move towards the end part of the first part until the end part of the second part of the material is overlapped with the end part of the first part.

Further, the step 101 of "the control executing component performs the folding action" may further include:

1013. and controlling the opening folding mechanism in the execution assembly to act so as to drive one end part of the two end parts of the material to fold to form an opening.

Further, the method further comprises:

104. after the presser foot component finishes the maintaining action, controlling the pressing plate mechanism to act so as to release the pressed material;

105. and controlling the spigot pressing plate in the spigot folding mechanism to withdraw from the spigot.

Still further, the method further comprises:

106. controlling the presser foot component to execute a material moving action and moving the material to a sewing area; so that after the presser foot member moves the material to the sewing area, an instruction is sent to the sewing device.

The technical scheme provided by the embodiments of the application has more prominent advantages in the small-order quick-change scene. The small form quick change factory can be simply understood as: the order quantity is small, and the sewing processing style is changed relatively fast. The flexibility of this type mill is stronger, can in time be according to the processing style adjustment equipment combination of product. For example, a recent order of a lot of T-shirts requires processing of a threaded collar, and at this time, a sewing device (such as a pattern sewing machine) may be assembled with the stock preparation device in the present application for processing. When the batch of orders are produced and other sewing products are required to be produced, the sewing device and the material preparation device can be detached, and the sewing device can be restored to the original processing task line or combined with other types of material preparation devices and the like.

In particular implementations, the order information may be synchronized with information between processing equipment within the factory (including the sewing devices, stock preparation devices, etc. as referred to in the embodiments of the present application) to achieve true production digitization. For example, new order information from the factory may be synchronized to equipment within the factory, such as a management device, which may generate processing tasks (e.g., a cutting task, a body sewing task, a collar stitching task, etc.) based on the order information; the processing task is then distributed to the corresponding devices, and the devices that receive the task can initiate production according to the task.

In the scene of small form quick change, namely be applicable to in the mill of small form quick change processing sound field, disconnect-type equipment can be based on order demand and make up at will, collaborative work. For example, the order is a T-shirt, and the round collar can be processed by assembling the sewing device and the material preparation device together; and then the sewing device and other types of material preparation devices are assembled together to process the T-shirt body and the like.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting thereof; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (24)

1. A stock preparation device, characterized by comprising:

the frame is used for being detachably connected with the sewing device;

the operation table is arranged on the rack and used for placing materials;

the execution assembly is arranged on the workbench and comprises a material pressing plate, and is used for executing folding action after the material pressing plate presses the first part of the material so as to drive the material to be folded in half so that the end part of the first part of the material and the end part of the second part of the material are overlapped;

a presser foot member provided on the work table and cooperating with the execution unit for performing an operation of maintaining an overlapping relationship between an end of the first portion and an end of the second portion after the execution unit completes a folding operation, so that the sewing device performs a sewing operation to connect the end of the first portion and the end of the second portion; and

the adjusting plate is used for placing the material, is matched with the material pressing plate when the execution assembly executes folding action, fixes a first part of the material between the material pressing plate and the adjusting plate, is positioned between the first part and the second part of the material after the material is folded in half, and is withdrawn from between the first part and the second part after the presser foot component completes maintenance action;

the execution assembly further comprises a spigot folding mechanism, wherein the spigot folding mechanism comprises a spigot pressing plate, a spigot baffle and a third driving part; the spigot pressing plate is positioned at the end part of the first part of the material, and the end part of the first part exceeds the spigot pressing plate; the spigot baffle plate is in contact with an end of the first portion beyond the spigot pressure plate; the third driving part drives the spigot baffle to move towards the reverse direction of folding the material, so that the spigot baffle pushes the end part of the first part to bend to form a spigot.

2. The stock device of claim 1, wherein the execution assembly comprises:

the pressing plate mechanism comprises the material pressing plate and a first driving part, wherein the first driving part drives the material pressing plate to execute a first action to press a first part of the material, and is also used for driving the material pressing plate to execute a second action to release the pressed material;

and the folding mechanism is used for driving the second part of the material to move towards the end part of the first part after the pressing plate mechanism presses the first part of the material until the end part of the second part of the material is overlapped with the end part of the first part.

3. The stock device of claim 2, wherein the first drive component comprises: a driving device for respectively outputting power in at least two directions;

wherein the driving device comprises at least one of the following: cylinder, pneumatic cylinder, lead screw motor.

4. The stock preparation device of claim 2, wherein the platen mechanism is a plurality of platen mechanisms; the pressing plate mechanisms are distributed along the folding direction of the materials.

5. The stock preparation device of claim 1, wherein a second drive member is further provided on the work table; wherein,

the second driving part is connected with the adjusting plate and used for driving the adjusting plate to move so as to withdraw from the space between the first part and the second part after the presser foot part completes the maintaining action.

6. The stock device of any one of claims 2 to 5, wherein the folding mechanism comprises:

a folding plate provided with a first through hole; wherein the end of the second portion of the material penetrates from the first through hole and naturally sags;

and the fourth driving part is connected with the folding plate and is used for driving the folding plate to move along the folding direction so as to move the second part towards the end part of the first part until the end part of the second part of the material is overlapped with the end part of the first part.

7. The stock device of any one of claims 1 to 5, wherein the presser foot member comprises:

a fifth driving part for outputting power in at least one direction;

and the material presser foot is connected with the fifth driving component and is used for executing the action of maintaining the overlapping relation between the end part of the first part and the end part of the second part of the material under the driving of the fifth driving component.

8. The stock preparation device of claim 7, wherein the material presser foot is provided with a stitching slit;

the sewing needle of the sewing device may pass through the sewing slit to stitch the end of the overlapped first portion and the end of the second portion.

9. The stock preparation device of claim 1, wherein the work table has a loading area and a sewing area;

the execution assembly is positioned in the loading area;

the presser foot member also has a material moving action to move material overlapping the end of the first portion and the end of the second portion from the loading area to the sewing area.

10. The stock preparation device of claim 9, wherein a second through hole is provided in the work table; the second through hole is adjacent to the sewing area;

and a material box communicated with the second through hole is arranged below the operation table.

11. The stock preparation device of claim 9, wherein the sewing zone is provided with a component that cooperates with a sewing mechanism of the sewing device head to perform a sewing action.

12. The stock device of claim 9, wherein the plurality of loading areas are provided, and wherein the plurality of loading areas are each provided with the actuator assembly.

13. The stock preparation device of claim 12, wherein the plurality of presser foot members cooperate to sequentially move material in a plurality of loading areas to the sewing area.

14. The stock device of claim 9, wherein the loading area is two;

along a first direction, the two charging areas are respectively positioned at two sides of the sewing area;

the execution assemblies are arranged in the two charging areas;

the direction in which the execution assembly folds the material is a second direction, and the second direction is perpendicular to the first direction;

the number of the presser foot parts is two, and the two presser foot parts are provided with a material moving action along the first direction.

15. The stock device of claim 1, further comprising:

the controller is in communication connection with the execution assembly and the presser foot component and is used for sending corresponding control instructions to the execution assembly and the presser foot component so that the execution assembly and the presser foot component work cooperatively;

and the communication assembly is in communication connection with the sewing device and is used for sending a starting sewing instruction sent by the controller to the sewing device.

16. The sewing equipment is characterized by comprising a sewing device and a material preparation device; the material preparation device is detachably connected with the sewing device; wherein,

the material preparation device comprises:

the operation table is used for placing materials;

the execution assembly is arranged on the workbench and comprises a material pressing plate, and is used for executing folding action after the material pressing plate presses the first part of the material so as to drive the material to be folded in half so that the end part of the first part of the material and the end part of the second part of the material are overlapped;

a presser foot member provided on the work table and cooperating with the execution unit to execute an operation of maintaining an overlapping relationship between an end of the first portion and an end of the second portion after the execution unit completes a folding operation; and

the adjusting plate is used for placing the material, is matched with the material pressing plate when the execution assembly executes folding action, fixes a first part of the material between the material pressing plate and the adjusting plate, is positioned between the first part and the second part of the material after the material is folded in half, and is withdrawn from between the first part and the second part after the presser foot component completes maintenance action;

the sewing device is used for performing sewing actions at the end part of the first part and the end part of the second part so as to connect the two end parts of the material;

the execution assembly further comprises a spigot folding mechanism, wherein the spigot folding mechanism comprises a spigot pressing plate, a spigot baffle and a third driving part; the spigot pressing plate is positioned at the end part of the first part of the material, and the end part of the first part exceeds the spigot pressing plate; the spigot baffle plate is in contact with an end of the first portion beyond the spigot pressure plate; the third driving part drives the spigot baffle to move towards the reverse direction of folding the material, so that the spigot baffle pushes the end part of the first part to bend to form a spigot.

17. The sewing apparatus of claim 16, wherein the execution assembly comprises:

the pressing plate mechanism comprises the material pressing plate and a first driving part, wherein the first driving part drives the material pressing plate to execute a first action to press a first part of the material and is also used for driving the material pressing plate to execute a second action to release the pressed material;

and the folding mechanism is used for driving the second part of the material to move towards the end part of the first part after the pressing plate mechanism presses the first part of the material until the end part of the second part of the material is overlapped with the end part of the first part.

18. The sewing apparatus of claim 16, wherein the work table is further provided with a second drive member; wherein,

the second driving part is connected with the adjusting plate and used for driving the adjusting plate to move so as to withdraw from the space between the first part and the second part after the presser foot part completes the maintaining action.

19. The sewing apparatus of claim 17 or 18, wherein the folding mechanism comprises:

a folding plate provided with a first through hole; wherein the end of the second part of the material penetrates from the first through hole and naturally sags;

and the fourth driving part is connected with the folding plate and is used for driving the folding plate to move along the folding direction so as to move the second part towards the end part of the first part until the end part of the second part of the material is overlapped with the end part of the first part.

20. The sewing apparatus of claim 16, wherein the sewing device comprises a head;

the machine head is provided with a sewing mechanism;

the machine head extends out and is positioned above the workbench.

21. The sewing apparatus of claim 16, wherein the sewing device is provided with a sensor; the sensor is used for detecting whether the material to be sewn is in place or not; after the sensor detects that the material is in place, the sewing device executes the sewing action; or alternatively

The sewing device is provided with a second communication component which is in communication connection with the first communication component on the material preparation device, and the sewing device executes the sewing action after receiving the instruction sent by the material preparation device through the second communication component.

22. The sewing equipment is characterized by comprising a pattern machine and a material preparation device; the material preparation device is detachably connected with the pattern machine; wherein,

the material preparation device comprises:

the operation table is used for placing materials;

the execution assembly is arranged on the workbench and comprises a material pressing plate, and is used for executing folding action after the material pressing plate presses the first part of the material so as to drive the material to be folded in half so that the end part of the first part of the material and the end part of the second part of the material are overlapped;

a presser foot member provided on the work table and cooperating with the execution unit to execute an operation of maintaining an overlapping relationship between an end of the first portion and an end of the second portion after the execution unit completes a folding operation; and

the adjusting plate is used for placing the material, is matched with the material pressing plate when the execution assembly executes folding action, fixes a first part of the material between the material pressing plate and the adjusting plate, is positioned between the first part and the second part of the material after the material is folded in half, and is withdrawn from between the first part and the second part after the presser foot component completes maintenance action;

the pattern sewing machine is used for performing sewing actions at the end part of the first part and the end part of the second part so as to connect the two end parts of the material;

the execution assembly further comprises a spigot folding mechanism, wherein the spigot folding mechanism comprises a spigot pressing plate, a spigot baffle and a third driving part; the spigot pressing plate is positioned at the end part of the first part of the material, and the end part of the first part exceeds the spigot pressing plate; the spigot baffle plate is in contact with an end of the first portion beyond the spigot pressure plate; the third driving part drives the spigot baffle to move towards the reverse direction of folding the material, so that the spigot baffle pushes the end part of the first part to bend to form a spigot.

23. A control method of a sewing apparatus, characterized by comprising:

responding to a starting instruction, controlling an execution assembly to execute a folding action after the material pressing plate presses the first part of the material so as to drive the material to be folded in half so that the end part of the first part of the material is overlapped with the end part of the second part of the material;

the control adjusting plate is matched with the material pressing plate when the execution assembly executes folding action, a first part of the material is fixed between the material pressing plate and the adjusting plate, and the material is folded in half and then positioned between the first part and the second part of the material;

after the execution assembly completes the folding action, controlling a presser foot component to execute the action of maintaining the overlapping relation between the end part of the first part and the end part of the second part of the material;

controlling the withdrawal of the adjustment plate from between the first and second portions after the hold-down member has completed the maintenance action;

sending an instruction to a sewing device so that the sewing device performs a sewing action according to the instruction, and connecting the end part of the first part and the end part of the second part of the material;

wherein the control execution component performs a folding action, comprising:

controlling a material pressing plate in the execution assembly to act so as to press a first part of the material;

controlling a folding mechanism in the execution assembly to act so as to drive the second part of the material to move towards the end part of the first part until the end part of the second part of the material is overlapped with the end part of the first part;

controlling a third driving part in the execution assembly to drive the spigot baffle to move towards the reverse direction of folding the material, so that the spigot baffle pushes the end part of the first part to bend to form a spigot; the spigot pressing plate is positioned at the end part of the first part of the material, and the end part of the first part exceeds the spigot pressing plate; the spigot flap is in contact with an end of the first portion beyond the spigot pressure plate.

24. The method as recited in claim 23, further comprising:

after the presser foot component finishes the maintaining action, controlling the material pressing plate to act so as to release the pressed material;

and controlling the spigot pressing plate to withdraw from the spigot.