CN209836488U - Position-saving machine and position-saving machine system - Google Patents

Abstract

The application provides a position saving machine and a position saving machine system, and relates to the technical field of position saving machines. A position-saving machine comprises an operating table, a pressing plate, a sewing device and a pushing plate. The pressing plate is arranged on the operating platform in a sliding mode, the pressing plate is connected with the first driving device, the first driving device is configured to drive the pressing plate to be close to or far away from the operating platform, when the pressing plate is arranged on a material in a pressing mode, the pressing plate is configured to drive the material to do reciprocating motion along a first direction, the first direction is parallel to the table top of the operating platform, and the pressing plate is provided with a through hole arranged along the first direction. The sewing device is configured to sew the material pressed against the platen through the through hole. The push plate is arranged on the operating platform in a sliding mode and is configured to push the materials to the containing space and reset automatically. The province computer realizes automatic material conveying and automatic material sewing through mutual matching of the pressing plate, the push plate and the sewing device, guarantees the processing quality, saves labor and improves the processing efficiency.

Description

Position-saving machine and position-saving machine system

Technical Field

The application relates to the technical field of a computer, in particular to a computer and a computer system.

Background

The position-saving machine is used for sewing clothes, when the peripheral diameter of the clothes changes, the peripheral dimension changes through the position-saving, for example, the waist-tightening sewing of western style trousers, the operation of the existing position-saving machine is complex, and the high-efficiency operation of operators is not facilitated.

SUMMERY OF THE UTILITY MODEL

The application aims to provide a position saving machine and a position saving machine system so as to solve the problems of complex operation and low efficiency.

In a first aspect, an embodiment of the application provides a position saving machine, which comprises an operation table, a pressing plate, a sewing device and a pushing plate. The clamp plate slides and sets up in the operation panel, has accommodation space between clamp plate and the operation panel, and the clamp plate is connected with first drive arrangement, and first drive arrangement is configured to drive the clamp plate and is close to or keeps away from the operation panel in order to change accommodation space's size, and when the clamp plate was close to the operation panel and pressed and locates the material, the clamp plate was configured to drive the material and is reciprocating motion along first direction, and first direction is parallel with the mesa of operation panel, and the clamp plate has the through-hole that sets up along first direction. The sewing device is fixedly connected with the operating platform and is configured to sew the material pressed on the pressing plate through the through hole. The push plate is arranged on the operating platform in a sliding mode and is configured to push the materials to the containing space and reset automatically.

The application provides a province machine passes through clamp plate, push pedal, sewing device's mutually supporting, realizes automatic conveying material, automatic sewing material to the roughness of material in the sewing process has been guaranteed to the structure of clamp plate, guarantees processingquality, uses manpower sparingly, improves machining efficiency.

In a possible implementation manner, the pressing device further comprises a first sliding rail arranged on the operating platform, one side of the pressing plate, which is away from the pushing plate, is connected with the first sliding rail in a sliding manner, the length direction of the first sliding rail is consistent with the first direction, and the first sliding rail is configured to drive the pressing plate to move along the first sliding rail.

The first sliding rail drives the pressing plate to move, and sewing of the material is completed. Manual operation is reduced, and automatic movement is realized. The plate-shaped structure of the pressing plate is adopted, the action area of the pressing plate and the material is increased, the acting force between the pressing plate and the material is guaranteed, the material can stably move synchronously with the pressing plate, and the sewing effect is guaranteed.

In a possible implementation manner, the position saving machine further comprises a second sliding rail and a second driving device, the second sliding rail and the second driving device are fixed on the operating platform, one end of the second sliding rail is fixed at one end of the operating platform, the other end of the second sliding rail extends towards the direction close to the pressing plate, the pushing plate is in sliding connection with the second sliding rail, and the second driving device is arranged at one end, close to the pressing plate, of the second sliding rail and used for pushing the pushing plate moving to one end, close to the pressing plate, of the second sliding rail back to one end, far away from.

The second sliding rail is used for limiting the moving direction of the push plate, so that the push plate is guaranteed to move to the pressing plate along the preset direction, and materials are guaranteed to be sewn according to the preset position. The second driving device acts on the push plate, so that the automatic return of the push plate is realized, manual operation is saved, and the efficiency is improved.

In a possible implementation manner, one end of the second slide rail, which is close to the pressing plate, is provided with a sensor for sensing the pushing plate, and the sensor is electrically connected with the second driving device.

The inductor matches with second drive arrangement, and the motion condition of automated inspection push pedal is in time pushed back the push pedal.

In a possible implementation manner, the push plate includes a first push plate and a second push plate, the second push plate is slidably connected with the second slide rail, the first push plate is movably connected with the second push plate, and the first push plate is configured to push the material to the accommodating space.

The first push plate and the second push plate improve the flexibility and the application range of the push plates. The first push plate moves relative to the second push plate, and the position of the first push plate can be changed as required.

In one possible implementation, the second push plate is provided with an arc-shaped through hole, the first push plate is provided with a first through hole matched with the arc-shaped through hole, and the first through hole is configured to drive the first push plate to move along the arc-shaped through hole relative to the second push plate.

This structure makes first push pedal rotate relative to the second push pedal for first push pedal inclines relative to the second push pedal, improves the flexibility of push pedal.

In a possible implementation manner, a connecting piece is arranged at the center of the arc where the arc-shaped through hole of the second push plate is located, and the second push plate is movably connected with the first push plate through the connecting piece, so that the first push plate rotates relative to the second push plate by taking the connecting piece as an axis.

The structure enables the first push plate to rotate relative to the second push plate regularly, the relative position of the first push plate and the second push plate is accurately set, and the material is guaranteed to be placed at the position of the first push plate and the position to be sewn.

In one possible implementation, the operating platform is provided with a groove for hanging the material, and the groove is arranged between the push plate and the pressing plate.

In actual processing, the position to be sewn may be the middle position of the material, and the material stacking occurs when the material to be processed is placed on the first push plate, so that the sewing quality is affected. The excessive materials are arranged in the groove, and cannot be stacked on the first push plate or the operating platform, so that the normal sewing operation cannot be influenced.

In a possible implementation manner, the province computer further comprises a blowing device arranged on the side edge of the operation platform, and the blowing device is configured to blow the material in the accommodating space out of the accommodating space.

Blow the material device and outwards blow the air, blow the material device blow the direction by the operation panel to keeping away from the operation panel direction to blowing the material, give the material one to the effort of keeping away from the operation panel for the material leaves the operation panel, uses manpower sparingly, raises the efficiency.

The second aspect provides a computer system that saves, including controlling means and above-mentioned computer that saves, controlling means and sewing device, first drive arrangement electric connection for control first drive arrangement and sewing device.

The system of the position saving machine realizes automatic material processing through the control device, reduces the requirement on workers, saves labor, improves the efficiency and improves the consistency of the position saving.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a first view angle of a position saving machine according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a second view angle of the position saving machine according to the embodiment of the present application;

FIG. 3 is a schematic structural diagram of a first push plate according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a second push plate according to an embodiment of the present application.

Icon: 100-position saving machine; 110-an operation table; 111-grooves; 120-a platen; 121-a third via; 130-a sewing device; 140-a push plate; 141-a first push plate; 1411-a first via; 1413-a second arcuate through hole; 1415-a third connector; 1417-the convex portion; 142-a second pusher plate; 1421 — a first arc via; 1423 — second connector; 1425-second via; 1427 — first connector; 150-a second slide rail; 151-third slide rail; 160-a second drive; 170-a sensor; 180-a first drive; 190-a first sliding rail; 200-a computer-saving system; 210-control means.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the application usually place when in use, and are used only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the devices or elements being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 and fig. 2, fig. 1 and fig. 2 are schematic structural diagrams of a first viewing angle and a second viewing angle of the position saving machine 100 provided in this embodiment, respectively.

The embodiment provides an indexing machine 100 for sewing materials, which comprises an operating table 110, a pressing plate 120, a sewing device 130 and a pushing plate 140. The pressing plate 120, the sewing device 130 and the pressing plate 140 are all arranged on the operating platform 110, the pressing plate 140 is used for pushing a material to be sewn to the pressing plate 120, the pressing plate 120 is used for pressing and fixing the material between the pressing plate 120 and the operating platform 110 and can drive the material to move on the operating platform 110, and the sewing device 130 is used for sewing the material pressed between the pressing plate 120 and the operating platform 110.

The operation table 110 is a general structure in the art as a base. The push plate 140 is used to push the material toward the platen 120, and in order to facilitate a worker to place the material on the push plate 140, in some embodiments of the present application, the push plate 140 is slidably disposed on one side of the operating table 110. In one implementation, the platen 120 and the sewing device 130 are disposed at a central position of the table 110. In other embodiments of the present application, the pressing plate 120 and the sewing device 130 may be disposed on one side or other positions of the operating table 110, which is not limited in the present application.

In order to realize the automatic material pushing of the push plate 140, the operation table 110 is provided with a second slide rail 150 and a second driving device 160. One end of the second slide rail 150 is fixed to a side of the operation table 110 where the push plate 140 is disposed, and the other end extends in a direction close to the press plate 120, so as to convey the push plate 140 from the side of the operation table 110 to the press plate 120. In order to ensure the moving direction of the push plate 140, in some embodiments of the present application, a third slide rail 151 is further included, which is matched with the second slide rail 150, and both the second slide rail 150 and the third slide rail 151 are slidably connected to the push plate 140. And the second slide rail 150 and the third slide rail 151 are arranged in parallel.

The push plate 140 in the embodiment of the present application is a common thin plate structure in the technical field, and as an implementation manner, the push plate 140 is a steel plate. The steel plate has stronger rigidity, and the thickness of the steel plate is thinner under the same rigidity condition, so that the position of the material to be sewn can be more accurately positioned. In other embodiments of the present application, the push plate 140 may be a plastic plate or the like.

As an implementation mode, the steel plate in the embodiment of the application is a rectangular body, and the structure is suitable for most sewing requirements. In order to improve the flexibility of the push plate 140, the push plate 140 includes a first push plate 141 and a second push plate 142, the second push plate 142 is slidably connected to a second slide rail 150 and a third slide rail 151, and the first push plate 141 is movably connected to the second push plate 142. The second pushing plate 142 is used for driving the first pushing plate 141 to slide, and the first pushing plate 141 is used for pushing the material to be processed to the pressing plate 120.

Referring to the figure, the first push plate 141 is disposed at a position corresponding to the press plate 120, and the second push plate 142 is disposed at one side of the first push plate 141, so that pushing of the first push plate 141 is not affected. The second pushing plate 142 is slidably connected to the second sliding rail 150 and the third sliding rail 151 through a connecting block. In some embodiments of the present application, the second pushing plate 142 is fixedly connected to the first pushing plate 141. In this embodiment, the second pushing plate 142 is movably connected to the first pushing plate 141, that is, the arrangement positions of the first pushing plate 141 and the second pushing plate 142 can be changed as required.

As an implementation manner, the first pushing plate 141 and the second pushing plate 142 may relatively move along a direction perpendicular to the length direction of the second slide rail 150, or the first pushing plate 141 and the second pushing plate 142 relatively move along the length direction of the second slide rail 150, that is, the distance between the first pushing plate 141 and the pressing plate 120 is changed as required. The specific implementation manner is a general technology in the art, for example, a sliding assembly is disposed between the first pushing plate 141 and the second pushing plate 142, and the embodiment of the present application is not limited thereto.

As another implementation manner, please refer to fig. 3 and 4, and fig. 3 and 4 are schematic structural diagrams of the first pushing plate 141 and the second pushing plate 142, respectively. The first push plate 141 rotates relative to the second push plate 142. In some embodiments of the present disclosure, the second pushing plate 142 is provided with a first arc-shaped through hole 1421, the first pushing plate 141 is provided with a first through hole 1411 matched with the first arc-shaped through hole 1421, the first connecting member 1427 passes through the first arc-shaped through hole 1421 and is connected to the first pushing plate 141 and the second pushing plate 142 with the first through hole 1411, and the first pushing plate 141 moves relative to the second pushing plate 142 through the first arc-shaped through hole 1421 and the first through hole 1411. The second connecting member 1423 is disposed at the center of the arc where the first arc through hole 1421 of the second pushing plate 142 is located, and the second pushing plate 142 is movably connected to the first pushing plate 141 through the second connecting member 1423, so that the first pushing plate 141 rotates relative to the second pushing plate 142 with the second connecting member 1423 as an axis. The structure can change the setting angle of the first push plate 141 relative to the press plate 120, further change the setting positions of the material pushed to the press plate 120 and the press plate 120, and can meet different sewing requirements. It should be noted that, the first arc through hole 1421 and the second connecting member 1423 are both disposed at a position of the second push plate 142 close to the second slide rail 150, and this structure ensures the stability of the first push plate 141 in the process of sliding along with the second push plate 142, and ensures that the material placed on the first push plate 141 does not slide in the process of pushing the material to the press plate 120.

In order to improve the stability of the movable connection between the first pushing plate 141 and the second pushing plate 142, the second pushing plate 142 is connected to an end of the first pushing plate 141 away from the second sliding rail 150. In some embodiments of the present application, the second pushing plate 142 has a second through hole 1425, the first pushing plate 141 has a second curved through hole 1413, and the first pushing plate 141 and the second pushing plate 142 are connected by a third connecting piece 1415 passing through the second through hole 1425 and the second curved through hole 1413. Moreover, the center of the arc where the second arc through hole 1413 is located coincides with the second connecting member 1423, that is, the second arc through hole 1413 and the first arc through hole 1421 are located on the same arc. In other embodiments of the present application, the second through hole 1425 may be disposed on the first push plate 141, and the second arc-shaped through hole 1413 may be disposed on the second push plate 142. Compared with the structure, the second through hole 1425 is disposed on the second push plate 142, and the second arc-shaped through hole 1413 is disposed on the first push plate 141, so that the stability is stronger. The structure makes the first arc through hole 1421 and the second arc through hole 1413 respectively disposed on the first push plate 141 and the second push plate 142, and the structure makes the acting force applied to the first push plate 141 and the second push plate 142 more uniform from the aspect of force.

A convex portion 1417 for limiting is arranged on one side of the first push plate 141 close to the press plate 120. The convex portion 1417 corresponds to a sewing action portion of the sewing device 130, and is used for marking a sewing position and limiting a material placing position, thereby ensuring accuracy of the sewing position.

The pushing plate 140 in the present application needs to return to the original position for the next pushing after pushing the material to the pressing plate 120. In order to realize the automatic recovery of the push plate 140, the station 100 further includes a second driving device 160 and a sensor 170 fixed on the console 110, the sensor 170 and the second driving device 160 are disposed at one end of the second slide rail 150 close to the press plate 120, the sensor 170 is electrically connected to the second driving device 160, the sensor 170 is configured to sense the second push plate 142, and transmit the detection result data to the second driving device 160 or the control device 210, thereby controlling the second driving device 160 to push the push plate 140 moving to one end of the second slide rail 150 close to the press plate 120 back to one end of the second slide rail 150 away from the push plate 140.

As an implementation manner, the second driving device 160 is disposed at one end of the third sliding rail 151 close to the pressing plate 120, in some embodiments of the present application, the second driving device 160 is an air cylinder, and the sensor 170 is a micro switch. The cylinder and the microswitch in the application are general devices in the technical field, and the application does not limit the cylinder and the microswitch.

In actual processing, the position to be sewn may be a middle position of the material, and when the material to be processed is placed on the first push plate 141, stacking of the material may occur, thereby affecting sewing quality. In order to avoid the above problem, the operating table 110 between the first pushing plate 141 and the pressing plate 120 is provided with the groove 111, and the excessive material is placed in the groove 111, and is not stacked on the first pushing plate 141 or the operating table 110, and the normal sewing operation is not affected.

The pressing plate 120 and the sewing device 130 are disposed at an end of the second slide rail 150 away from the second pushing plate 142. The distance between the pressing plate 120 and the first pushing plate 141 is smaller than the length of the second slide rail 150, and this structure ensures that the first pushing plate 141 can push the material to the pressing plate 120. In some embodiments of the present application, the pressing plate 120 is a steel plate, which has high strength, low loss during use, and long service life.

The positioner 100 further includes a first driving device 180 and a first slide rail 190. The first slide rail 190 is disposed on a side of the pressing plate 120 away from the first pushing plate 141 along a direction perpendicular to the second slide rail 150. One side of the pressing plate 120, which is away from the first pushing plate 141, is slidably connected to the first sliding rail 190, and the first sliding rail 190 is used for driving the pressing plate 120 to move along the first sliding rail 190. In some embodiments of the present application, the first slide rail 190 is a stepping motor slide rail, and the first slide rail 190 has a driving device for driving the first push plate 141. In other embodiments of the present application, the first sliding rail 190 may be other devices having the same function, and the present application does not limit the same.

The platen 120 and the operation table 110 have an accommodating space therebetween, and the first driving device 180 is connected to the platen 120 for driving the platen 120 to approach or move away from the operation table 110 to change the size of the accommodating space. After the material is pushed to the receiving space, the first driving device 180 drives the platen 120 to approach the operation table 110, i.e., presses the platen 120 down, so that the platen 120 is pressed against the material. It should be noted that the term "pressing the material" in this application means that the pressing plate 120 can move the material on the operation table 110, and the material is not fastened between the pressing plate 120 and the operation table 110. The application adopts the plate-shaped structure of the pressing plate 120, so that the acting area of the pressing plate 120 and the material is increased, and the acting force between the pressing plate 120 and the material is ensured, so that the material can stably move synchronously with the pressing plate 120.

The sewing device 130 is fixed to the table 110, and the position of the sewing portion of the sewing device 130 in this embodiment is fixed relative to the table 110. When the pressing plate 120 drives the material to move along the first sliding rail 190, the sewing device 130 acts on the material, and the sewing path of the sewing device 130 is the same as the moving path of the material.

The sewing device 130 is generally applied to the material around the pressing plate 120, and since the material is generally soft, wrinkles may occur during the movement process to affect the processing quality, and often a worker is required to operate beside the material to ensure the smoothness of the material. In order to improve the quality of sewing and reduce manual operations, the presser plate 120 has a third through hole 121 provided in the first direction. The first direction is the same as the length direction of the first slide rail 190. The sewing portion of the sewing device 130 is applied to the material through the through hole to sew the material. The structure ensures that the cloth around the sewing part is in a flat state, ensures the sewing effect and saves manpower. In some embodiments of the present application, the length of the third through hole 121 is equal to the distance that the pressure plate 120 moves on the first slide rail 190 in one direction. When the pressing plate 120 moves to the left side first, the sewing portion of the sewing device 130 is disposed at the left end of the third through hole 121, that is, the pressing plate 120 moves to the left side relative to the sewing device 130, and the left end of the third through hole 121 moves relative to the sewing device 130, so that the sewing portion of the sewing device 130 corresponds to the right end of the third through hole 121. In other embodiments of the present application, the initial positions of the third through hole 121 and the sewing part are adjusted according to the moving direction of the pressing plate 120, which is not limited in the present application.

After the material is sewn under the driving of the pressing plate 120, the material needs to be removed for the next sewing. In some embodiments of the present application, the side of the operation table 110 is provided with a blowing device (not shown) configured to blow the material placed in the accommodating space out of the accommodating space. In some embodiments of the present application, the blowing device blows air outwards, the blowing direction of the blowing device is blown to the material from the operation table 110 to the direction away from the operation table 110, and an acting force is given to the material to the direction away from the operation table 110, so that the material leaves the operation table 110, which saves labor and improves efficiency. The blowing device in this application is the general equipment in this technical field, and this application does not limit it.

The application provides a economize on position machine 100 passes through the mutually supporting of clamp plate 120, push pedal 140, sewing device 130, realizes automatic conveying material, automatic sewing material to the roughness of material at the sewing in-process has been guaranteed to clamp plate 120's structure, guarantees processingquality, uses manpower sparingly, improves machining efficiency.

The present application further provides a system 200 of the saving machine, which includes a control device 210, a driving device (not shown), and the saving machine 100. The driving device is connected with the sewing device 130 and used for driving a switch of the sewing device 130, and the control device 210 is electrically connected with the sewing device 130 and the first driving device 180 and used for controlling the first driving device 180 and the sewing device 130. The control device 210 in the present application is a PLC control system (Programmable Logic Controller) and transmits a pulse signal. The PLC control system is a general technology in the technical field, and the PLC control system is not limited in the application.

The working principle is as follows: the material to be processed is placed on the first steel plate, and after the material is stably placed, the first steel plate and the second steel plate are driven by manpower or devices to move towards the direction close to the pressing plate 120 along the second sliding rail 150 and the third sliding rail 151. When the first steel plate is moved between the pressing plate 120 and the operation to feed the material to the receiving space, the first driving means 180 drives the pressing plate 120 to be pressed down to press the material between the pressing plate 120 and the operation table 110. Meanwhile, the second steel plate also moves to the sensor 170, the sensor 170 is triggered, the sensor 170 transmits the detection signal to the control device 210, and the control device 210 controls the second driving device 160 to push the second steel plate, so that the second steel plate and the first steel plate move to the original position along the second slide rail 150 and the third slide rail 151 in the direction away from the pressing plate 120. After the pressing plate 120 is pressed down to the material, the first sliding rail 190 drives the pressing plate 120 to move along the first sliding rail 190, and at the same time, the driving device drives the sewing device 130. The presser plate 120 moves along the first slide rail 190 relative to the sewing device 130, so that the sewing device 130 sews along the third through hole 121. When the pressing plate 120 moves to the predetermined position, the driving device stops driving the sewing device 130, so that the sewing device 130 stops sewing. The first slide rail 190 drives the platen 120 to move along the first slide rail 190 in the opposite direction to the original position of the platen 120. After the pressing plate 120 moves to the home position, the first driving device 180 drives the pressing plate 120 to move upward, so that the distance between the pressing plate 120 and the operation table 110 is increased, and the material is released from being fixed. The blowing device is started to act on the material, so that the material is blown away from the operating table 110, and one sewing process is completed.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A position-saving machine for sewing material, which is characterized by comprising

An operation table;

the pressing plate is arranged on the operating platform in a sliding mode, an accommodating space is formed between the pressing plate and the operating platform, the pressing plate is connected with a first driving device, the first driving device is configured to drive the pressing plate to be close to or far away from the operating platform so as to change the size of the accommodating space, when the pressing plate is close to the operating platform and is pressed on the material, the pressing plate is configured to drive the material to reciprocate along a first direction, the first direction is parallel to the table top of the operating platform, and the pressing plate is provided with a through hole arranged along the first direction;

a sewing device fixedly connected with the operating table, wherein the sewing device is configured to sew the material pressed on the pressing plate through the through hole;

the push plate is arranged on the operating platform in a sliding mode and is configured to push the material to the containing space and reset automatically.

2. The positioner according to claim 1, further comprising a first slide rail disposed on the operating table, wherein one side of the pressing plate, which is away from the pushing plate, is slidably connected to the first slide rail, a length direction of the first slide rail is consistent with the first direction, and the first slide rail is configured to drive the pressing plate to move along the first slide rail.

3. The machine according to claim 1, further comprising a second slide rail fixed to the console and a second driving device, wherein one end of the second slide rail is fixed to one end of the console, the other end of the second slide rail extends in a direction close to the pressing plate, the pushing plate is connected to the second slide rail in a sliding manner, and the second driving device is disposed at one end of the second slide rail close to the pressing plate and used for pushing the pushing plate moving to one end of the second slide rail close to the pressing plate back to one end of the second slide rail away from the pushing plate.

4. The machine according to claim 3, wherein an inductor for inducing the pushing plate is disposed at one end of the second slide rail close to the pressing plate, and the inductor is electrically connected to the second driving device.

5. The machine of claim 3, wherein the push plate comprises a first push plate and a second push plate, the second push plate is slidably connected to the second slide rail, the first push plate is movably connected to the second push plate, and the first push plate is configured to push the material toward the receiving space.

6. The machine according to claim 5, wherein the second pushing plate is provided with an arc-shaped through hole, the first pushing plate is provided with a first through hole matched with the arc-shaped through hole, and the first through hole is configured to drive the first pushing plate to move along the arc-shaped through hole relative to the second pushing plate.

7. The machine according to claim 6, wherein a connecting piece is arranged at the center of the arc of the second pushing plate where the arc-shaped through hole is located, and the second pushing plate is movably connected with the first pushing plate through the connecting piece, so that the first pushing plate rotates relative to the second pushing plate by taking the connecting piece as an axis.

8. The machine according to claim 1, wherein the operating table is provided with a groove for hanging materials, and the groove is arranged between the push plate and the press plate.

9. The machine according to claim 1, further comprising a blowing device disposed at a side of the operation table, wherein the blowing device is configured to blow the material placed in the accommodating space out of the accommodating space.

10. A system of a position-saving machine, comprising a control device and a position-saving machine according to any one of claims 1 to 9, the control device being electrically connected to the sewing device and the first drive device for controlling the first drive device and the sewing device.