CN215873676U - Vamp softening and wrinkle removing device for multifunctional PU fabric shoes - Google Patents

Abstract

The utility model relates to the technical field of vamp production, in particular to a vamp softening and wrinkle removing device for a multifunctional PU fabric shoe, which comprises a rack, a wrinkle removing component and a wrinkle removing device, wherein the wrinkle removing device comprises: the annular guide rail is movably arranged on the rack; the first mounting seat is movably mounted on the annular guide rail and can slide along the annular guide rail; the connecting pipe is movably arranged on the first mounting seat, the bottom of the connecting pipe is provided with an atomizing nozzle, and the direction of the atomizing nozzle is vertical downwards; the water tank is fixedly arranged on the first mounting seat and is connected with the connecting pipe; the heating pipe is fixedly arranged in the water tank; the roller is rotatably arranged at the bottom of the heating pipe and is provided with a plurality of uniformly distributed spray nozzles; this application has solved the technical problem who how to reduce the hot steam temperature of wrinkle chasing device and the actual vamp surface machining temperature difference of temperature through frame, wrinkle chasing device and drive arrangement.

Description

Vamp softening and wrinkle removing device for multifunctional PU fabric shoes

Technical Field

The utility model relates to the technical field of vamp production, in particular to a vamp softening and wrinkle removing device for a multifunctional PU fabric shoe.

Background

The PU leather is a skin of polyurethane component. The natural leather is widely applied to the decoration of bags, clothes, shoes, vehicles and furniture, is increasingly determined by the market, has wide application range, large quantity and multiple varieties, and cannot be met by the traditional natural leather. The quality of the PU leather is good and bad, the good PU leather is even more expensive than the real leather, the setting effect is good, and the surface is bright. The shoe vamp made of the PU fabric is subjected to wrinkle removal, but in the prior art, the wrinkle removal temperature is kept in a closed space, and the operation has limitation, so that a high-automation multifunctional shoe vamp wrinkle removal device made of the PU fabric is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, a multifunctional PU fabric shoe vamp softening and wrinkle removing device is provided.

In order to achieve the above purposes, the technical scheme adopted by the utility model is as follows:

a multifunctional vamp softening and wrinkle removing device for PU fabric shoes, which comprises a frame,

the wrinkle removing device also comprises a wrinkle removing component which comprises:

the annular guide rail is movably arranged on the rack;

the first mounting seat is movably mounted on the annular guide rail and can slide along the annular guide rail;

the connecting pipe is movably arranged on the first mounting seat, the bottom of the connecting pipe is provided with an atomizing nozzle, and the direction of the atomizing nozzle is vertical downwards;

the water tank is fixedly arranged on the first mounting seat and is connected with the connecting pipe;

the heating pipe is fixedly arranged in the water tank;

the cylinder, the rotatable installation of cylinder is in the heating pipe bottom, and the cylinder is provided with a plurality of fog mouths of evenly distributed.

Preferably, the wrinkle removing device further comprises a driving device, the driving device comprises a lifting assembly, the lifting assembly comprises a second mounting seat, a first rotary driver, a first screw rod and a first connecting plate, the second mounting seat is fixedly mounted on the first mounting seat, the first rotary driver is fixedly mounted on the second mounting seat, the axis of the first rotary driver is vertically arranged, the first screw rod is fixedly connected with the first rotary driver, the axis of the first screw rod is collinear with the axis of the first rotary driver, the first connecting plate is in threaded connection with the first screw rod, and the first connecting plate is fixedly connected with the connecting pipe.

Preferably, the driving device further comprises a rotating assembly, and the rotating assembly comprises:

the third mounting seat is fixedly mounted on the annular guide rail;

the second rotary driver is fixedly arranged on the third mounting seat, and the axis of the driving end of the second rotary driver is parallel to the axis of the annular guide rail;

the first main shaft is fixedly connected with the driving end of the second rotary driver, and the axes of the first main shaft and the driving end of the second rotary driver are collinear;

the first rotating wheel is fixedly sleeved on the first main shaft;

the second main shaft is rotatably arranged on the annular guide rail, and the axis of the second main shaft is parallel to the axis of the first main shaft;

the second rotating wheel is fixedly sleeved on the second main shaft;

the synchronous belt is sleeved on the first rotating wheel and the second rotating wheel;

the limiting frame is fixedly arranged on the annular guide rail and is in an annular long strip shape, and the limiting frame and the axis of the annular guide rail are collinear.

Preferably, the driving device further comprises a linear driving assembly, and the linear driving assembly comprises:

the first sliding chute is fixedly arranged on the rack, and the working direction of the first sliding chute is horizontally arranged;

the second sliding chute is fixedly arranged on the rack, and the working direction of the second sliding chute is parallel to the first sliding chute;

the first supporting block is movably arranged on the first sliding groove and fixedly connected with the annular guide rail, and can move along the first sliding groove;

the second supporting block is movably arranged on the second sliding groove and fixedly connected with the annular guide rail, and the second supporting block can move along the second sliding groove;

the second supporting block is fixedly arranged on the rack;

the third rotary driver is fixedly arranged on the second supporting block, and the axis of the driving end of the third rotary driver is parallel to the working direction of the first sliding chute;

the screw rod is fixedly connected with the driving end of the third rotary driver, the screw rod is in threaded connection with the first supporting block, and the axis of the screw rod is collinear with the axis of the third rotary driver;

and the guide rod is in sliding connection with the second supporting block, and the axis of the guide rod is parallel to the axis of the screw rod.

Preferably, the wrinkle chasing assembly further includes a heat shield fixedly installed on the connection pipe, and the heat shield has a semi-cylindrical shape.

Preferably, the wrinkle removing device further comprises a material moving device, the material moving device comprises a conveying assembly, the conveying assembly comprises a conveying belt and a fourth rotary driver, the conveying belt is fixedly installed on the rack, and the fourth rotary driver is fixedly installed on the conveying belt.

Preferably, the water tank comprises a flexible pipe, the flexible pipe is fixedly arranged on the water tank, and the flexible pipe is made of flexible materials.

Preferably, the wrinkle removing assembly further comprises a roller, and the roller is fixedly arranged on the first mounting seat.

Compared with the prior art, the application has the beneficial effects that:

1. this application is used for carrying out the step of removing the wrinkle processing through frame, wrinkle chasing device and drive arrangement, has solved the technical problem who how to reduce wrinkle chasing device hot steam temperature and actual vamp surface machining temperature difference in temperature.

2. This application has solved the technical problem how to realize removing the automatic rising of wrinkle device through second mount pad, first rotary actuator, first screw rod and first connecting plate for the step that the first mount pad of execution drive goes up and down.

3. This application is used for carrying out the rotatory step of the first mount pad of drive through rotating assembly, has solved how to realize removing wrinkle device and has carried out automatic technical problem who removes the wrinkle to the vamp.

4. This application has solved how to further realize the automatic technical problem who removes the wrinkle of device wrinkle removal through sharp drive assembly for the step of carrying out the motion of drive ring rail.

4. This application is used for gathering together hot steam through thermal shroud, has solved the technical problem that hot steam spills towards other directions along the nozzle of cylinder.

6. This application has solved how to carry out the technical problem of automatic unloading of going up through conveyer belt and fourth rotary actuator for the step of carrying out unloading of going up.

7. This application is effective through the flexible pipe in order to connect water tank and connecting pipe, has solved lifting unit drive connecting pipe displacement and has not influenced the technical problem that connecting pipe and water tank are connected simultaneously.

8. This application is used for carrying out the step of temperature in the monitoring water tank through the cylinder, has solved the technical problem of how real-time supervision temperature in the water tank.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a left side view of the present invention;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is an enlarged view of a portion of FIG. 3 at B;

FIG. 5 is a front view of the present invention;

FIG. 6 is a top view of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6 at C;

the reference numbers in the figures are:

1-a frame;

2-a wrinkle removing device; 2 a-an annular guide rail; 2 b-a first mount; 2 c-connecting tube; 2c 1-atomizer; 2 d-a water tank; 2d 1-flexible tube; 2 e-heating tube; 2 f-a roller; 2f 1-spray outlet; 2 g-heat shield; 2 h-thermometer;

3-a drive device; 3 a-a lifting assembly; 3a1 — second mount; 3a2 — first rotary drive; 3a3 — first screw; 3a 4-first connecting plate; 3 b-a rotating assembly; 3b 1-third mount; 3b2 — second rotary drive; 3b3 — first spindle; 3b 4-first rotator wheel; 3b5 — second spindle; 3b 6-second rotator wheel; 3b 7-synchronous belt; 3b 8-stop collar; 3 c-a linear drive assembly; 3c1 — first runner; 3c 2-second runner; 3c3 — first support block; 3c 4-a second support block; 3c 4-fourth mount; 3c 6-third rotary drive; 3c 7-screw; 3c 8-guide bar;

4-a material moving device; 4 a-a transport assembly; 4a 1-conveyor belt; 4a 2-fourth rotary drive.

Detailed Description

The following description is presented to disclose the utility model so as to enable any person skilled in the art to practice the utility model. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

In order to solve the technical problem of how to reduce the temperature difference between the hot steam temperature of the wrinkle removing device and the actual vamp surface processing temperature, as shown in figures 1-4, the following preferred technical scheme is provided:

a multifunctional vamp softening and wrinkle removing device for PU fabric shoes, which comprises a frame 1,

the wrinkle chasing device also comprises a wrinkle chasing component 2, and the wrinkle chasing component 2 comprises:

the annular guide rail 2a is movably arranged on the frame 1;

the first mounting seat 2b is movably mounted on the annular guide rail 2a, and the first mounting seat 2b can slide along the annular guide rail 2 a;

the connecting pipe 2c is movably arranged on the first mounting seat 2b, the bottom of the connecting pipe 2c is provided with an atomizing nozzle 2c1, and the direction of the atomizing nozzle 2c1 is vertical downward;

the water tank 2d is fixedly arranged on the first mounting seat 2b, and the water tank 2d is connected with the connecting pipe 2 c;

the heating pipe 2e is fixedly arranged in the water tank 2 d;

the roller 2f is rotatably arranged at the bottom of the heating pipe 2e, and the roller 2f is provided with a plurality of uniformly distributed spraying outlets 2f 1.

Specifically, the atomizing nozzle 2c1 and the heating pipe 2e are electrically connected with the controller; in order to reduce the temperature difference between the temperature of the hot steam sprayed by the wrinkle removing component 2 and the surface temperature of the vamp to be wrinkle removed, the distance between the atomizing spray head 2c1 of the wrinkle removing component 2 and the vamp is shortened, so that the hot steam is directly sprayed to the surface of the shoe, the contact time of the hot steam and air is reduced, and the temperature of the hot steam is ensured. When an operator uses the wrinkle removing device to remove wrinkles of PU fabric shoes, firstly, the controller sends a signal to the heating pipe 2e, the heating pipe 2e heats water in the water tank 2d, after the water is heated to a specified temperature, the controller sends a signal to the atomizing spray head 2c1, hot water in the water tank 2d flows to the atomizing spray head 2c1 from the connecting pipe 2c, the atomizing spray head 2c1 atomizes and sprays the heated hot water after receiving the signal, the sprayed hot steam is in contact with the vamps through the spray nozzles 2f1 of the rollers 2f, the operator rolls the shoes on the rollers 2f to complete the wrinkle removing treatment of the vamps, the vamps are softened through the hot steam sprayed from the rollers 2f, and the vamps are pressed and leveled through the rollers 2 f.

In order to solve the technical problem of how to realize the automatic lifting of the wrinkle removing assembly 2, as shown in fig. 1, 2 and 4, the following preferred technical solutions are provided:

the wrinkle removing device further comprises a driving device 3, the driving device 3 comprises a lifting assembly 3a, the lifting assembly 3a comprises a second mounting seat 3a1, a first rotary driver 3a2, a first screw rod 3a3 and a first connecting plate 3a4, the second mounting seat 3a1 is fixedly mounted on the first mounting seat 2b, the first rotary driver 3a2 is fixedly mounted on the second mounting seat 3a1, the axis of the first rotary driver 3a2 is vertically arranged, the first screw rod 3a3 is fixedly connected with the first rotary driver 3a2, the axis of the first screw rod 3a3 is collinear with the axis of the first rotary driver 3a2, the first connecting plate 3a4 is in threaded connection with the first screw rod 3a3, and the first connecting plate 3a4 is fixedly connected with the connecting plate 2 c.

Specifically, the first rotary driver 3a2 is a servo motor, and the servo motor is electrically connected with the controller; in order to facilitate the wrinkle removing treatment of the shoe upper by the wrinkle removing assembly controlled by the controller by an operator, the wrinkle removing device is provided with the driving device 3, the driving device 3 is used for controlling the wrinkle removing assembly 2 to move so as to simplify the work of the operator, when the wrinkle removing device is used by the operator, the device is firstly opened, the wrinkle removing assembly 2 starts to continuously generate hot steam, the operator contacts the shoe upper with the roller 2f, then the controller sends a signal to the servo motor, the servo motor drives the first screw rod 3a3 to rotate so as to generate a driving force to the first connecting plate 3a4, the first connecting plate 3a4 is in threaded connection with the first screw rod 3a3, so that the first screw rod 3a3 rotates to drive the first connecting plate 3a4 to move in the vertical direction, and further drive the 2f2 to move in the vertical direction, and the workload of the operator is greatly simplified.

In order to solve the technical problem of how to realize the automatic wrinkle removing of the shoe upper by the wrinkle removing device, as shown in fig. 1-3 and fig. 7, the following preferred technical solutions are provided:

the driving device 3 further comprises a rotating component 3b, and the rotating component 3b comprises:

the third mounting seat 3b1, the third mounting seat 3b1 is fixedly arranged on the annular guide rail 2 a;

a second rotary driver 3b2, the second rotary driver 3b2 is fixedly installed on the third installation seat 3b1, and the axis of the driving end of the second rotary driver 3b2 is parallel to the axis of the annular guide rail 2 a;

the first main shaft 3b3, the driving end of the first main shaft 3b3 is fixedly connected with the driving end of the second rotary driver 3b2, and the driving end axes of the first main shaft 3b3 and the second rotary driver 3b2 are collinear;

the first rotating wheel 3b4, the first rotating wheel 3b4 is fixedly sleeved on the first main shaft 3b 3;

a second main shaft 3b5, the second main shaft 3b5 is rotatably arranged on the annular guide rail 2a, and the axis of the second main shaft 3b5 is parallel to the axis of the first main shaft 3b 3;

a second rotating wheel 3b6, wherein the second rotating wheel 3b6 is fixedly sleeved on the second main shaft 3b 5;

a timing belt 3b7, the timing belt 3b7 is sleeved on the first rotating wheel 3b4 and the second rotating wheel 3b 6;

the limiting frame 3b8 and the limiting frame 3b8 are fixedly arranged on the annular guide rail 2a, the limiting frame 3b8 is in an annular long strip shape, and the limiting frame 3b8 is collinear with the axis of the annular guide rail 2 a.

Specifically, the second rotary driver 3b2 is specifically a servo motor, and the servo motor is electrically connected with the controller; in order to further simplify the workload of operators and realize the automatic operation of the shoe uppers by the wrinkle removing device, a rotating component 3b is arranged on the wrinkle removing device, and the rotating component 3b is used for driving the first mounting seat 2b to move along the annular guide rail 2 a. When an operator starts the wrinkle removing device to remove wrinkles on the vamp, firstly, the controller sends a signal to the wrinkle removing component 2, the wrinkle removing component 2 continuously sprays hot steam through the atomizing spray head 2c1 and the spray opening 2f1, then the controller sends a signal to the lifting component 3a, the lifting component 3a drives the roller 2f to move downwards to the vamp, the controller sends a signal to the rotating component 3b again, the rotating component 3b drives the roller 2f to remove wrinkles on the whole vamp, the wrinkle removing on the vamp is completed through the matching of the lifting component 3a and the rotating component 3b, after the wrinkle removing is completed, the controller sends a signal to the lifting component 3a and the rotating component 3b, and the roller 2f is reset under the matching of the lifting component 3a and the rotating component 3 b.

In order to solve the technical problem of how to further realize the automatic wrinkle removing of the wrinkle removing device, as shown in fig. 1, fig. 2, fig. 4 and fig. 6, the following preferred technical solutions are provided:

the driving device 3 further comprises a linear driving assembly 3c, and the linear driving assembly 3c comprises:

the first chute 3c1 is fixedly arranged on the rack 1, and the working direction of the first chute 3c1 is horizontally arranged;

the second sliding chute 3c2 is fixedly arranged on the frame 1, and the working direction of the second sliding chute 3c2 is parallel to the first sliding chute 3c 1;

the first supporting block 3c3, the first supporting block 3c3 is movably mounted on the first sliding chute 3c1, the first supporting block 3c3 is fixedly connected with the annular guide rail 2a, and the first supporting block 3c3 can move along the first sliding chute 3c 1;

the second supporting block 3c4, the second supporting block 3c4 is movably mounted on the second sliding chute 3c2, the second supporting block 3c4 is fixedly connected with the annular guide rail 2a, and the second supporting block 3c4 can move along the second sliding chute 3c 2;

the second supporting block 3c4, the second supporting block 3c4 is fixedly installed on the frame 1;

the third rotary driver 3c6, the third rotary driver 3c6 is fixedly installed on the second supporting block 3c4, the axis of the driving end of the third rotary driver 3c6 is parallel to the working direction of the first sliding chute 3c 1;

the screw 3c7, the screw 3c7 and the driving end of the third rotary driver 3c6 are fixedly connected, the screw 3c7 and the first supporting block 3c3 are in threaded connection, and the axis of the screw 3c7 and the axis of the third rotary driver 3c6 are collinear;

the guide rod 3c8, the guide rod 3c8 and the second supporting block 3c4 are connected in a sliding mode, and the axis of the guide rod 3c8 is parallel to the axis of the screw rod 3c 7.

Specifically, the third rotary driver 3c6 is a servo motor, and the servo motor is electrically connected with the controller; the control personnel sends a signal to the servo motor through the controller, the servo motor receives the signal to start the driving screw rod 3c7 to rotate, so that the first supporting block 3c3 is driven to move along the first sliding groove 3c1, the annular guide rail 2a fixedly connected with the first supporting block 3c3 is driven to move, and in order to limit the moving track of the annular guide rail 2a, the second supporting block 3c4 and the guide rod 3c8 are arranged to guide the moving direction of the annular guide rail 2 a.

In order to solve the technical problem that the hot steam overflows along the spray opening 2f1 of the drum 2f in other directions, as shown in fig. 1-2, the following preferred technical solutions are provided:

the wrinkle removing assembly 2 further comprises a heat shield 2g, the heat shield 2g is fixedly installed on the connecting pipe 2c, and the heat shield 2g is a semi-cylindrical shell.

Specifically, since the spray ports 2f1 are uniformly formed in the drum 2f, the hot steam is discharged in other directions after being sprayed from the atomizing head 2c1, and therefore, in order to reduce consumption, the heat insulating cover 2g is fixedly provided to the connecting pipe 2c to collect the hot steam and maintain a stable processing temperature.

In order to solve the technical problem of how to perform automatic loading and unloading, as shown in fig. 1, 2 and 6, the following preferable technical scheme is provided:

the wrinkle removing device further comprises a material moving device 4, the material moving device 4 comprises a conveying assembly 4a, the conveying assembly 4a comprises a conveying belt 4a1 and a fourth rotary driver 4a2, the conveying belt 4a1 is fixedly installed on the machine frame 1, and the fourth rotary driver 4a2 is fixedly installed on the conveying belt 4a 1.

Specifically, the fourth rotary driver 4a2 is specifically a servo motor, and the servo motor is electrically connected with the controller; an operator starts the servo motor through the controller, the servo motor drives the conveyor belt 4a1 after being started, the workpiece is moved along the designated direction through the transmission of the conveyor belt 4a1, and the wrinkle removing component 2 is driven through the driving device 3 to complete automatic wrinkle removing, so that automatic processing is realized.

In order to solve the technical problem that the connection between the connection pipe 2c and the water tank 2d is not affected while the lifting assembly 3a drives the connection pipe 2c to displace, as shown in fig. 4, the following preferred technical solutions are provided:

the water tank 2d comprises a flexible tube 2d1, the flexible tube 2d1 is fixedly arranged on the water tank 2d, and the flexible tube 2d1 is made of flexible material.

Specifically, in order to ensure that the connection between the water tank 2d and the connection pipe 2c is completed while the connection pipe 2c is driven by the lifting assembly 3a to move, a flexible pipe 2d1 is arranged on the water tank 2d, and the flexible pipe 2d1 is made of a flexible material.

In order to solve the technical problem of how to monitor the water temperature in the water tank 2d in real time, as shown in fig. 4, the following preferred technical solutions are provided:

the wrinkle removing assembly 2 further comprises a roller 2f, and the roller 2f is fixedly arranged on the first mounting seat 2 b.

Specifically, for the interior temperature of real-time supervision water tank 2d, prevent that the temperature is crossed too low or too high and influence the wrinkle removal effect of vamp, set up cylinder 2f on first mount pad 2b, the temperature in the cylinder 2f real-time display water tank 2d, after the temperature heats to suitable scope in water tank 2d, reduce the heating strength of heating pipe 2e through the controller.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a multi-functional PU surface fabric shoes are with vamp softening remove wrinkle device, includes frame (1), its characterized in that, removes wrinkle device and still includes wrinkle removal subassembly (2), removes wrinkle removal subassembly (2) including:

the annular guide rail (2a), the annular guide rail (2a) is movably arranged on the frame (1);

the first mounting seat (2b) is movably mounted on the annular guide rail (2a), and the first mounting seat (2b) can slide along the annular guide rail (2 a);

the connecting pipe (2c) is movably arranged on the first mounting seat (2b), the bottom of the connecting pipe (2c) is provided with an atomizing nozzle (2c1), and the direction of the atomizing nozzle (2c1) is vertical and downward;

the water tank (2d) is fixedly arranged on the first mounting seat (2b), and the water tank (2d) is connected with the connecting pipe (2 c);

the heating pipe (2e), the heating pipe (2e) is fixedly installed in the water tank (2 d);

the roller (2f), the roller (2f) is rotatably installed at the bottom of the heating pipe (2e), and the roller (2f) is provided with a plurality of uniformly distributed spray outlets (2f 1).

2. The softening and wrinkle-removing device for the shoe upper made of multifunctional PU fabric according to claim 1, wherein the wrinkle-removing device further comprises a driving device (3), the driving device (3) comprises a lifting assembly (3a), the lifting assembly (3a) comprises a second mounting seat (3a1), a first rotary driver (3a2), a first screw rod (3a3) and a first connecting plate (3a4), the second mounting seat (3a1) is fixedly mounted on the first mounting seat (2b), the first rotary driver (3a2) is fixedly mounted on the second mounting seat (3a1), the axis of the first rotary driver (3a2) is vertically arranged, the first screw rod (3a3) is fixedly connected with the first rotary driver (3a2), the first screw rod (3a3) is connected with the first rotary driver (3a2) through threads, and the first connecting plate (3a4) is connected with the first screw rod (3a3) through threads, the first connecting plate (3a4) is fixedly connected with the connecting pipe (2 c).

3. The upper softening and wrinkle-removing device for the multifunctional PU fabric shoes according to claim 2, wherein the driving device (3) further comprises a rotating component (3b), the rotating component (3b) comprises:

the third mounting seat (3b1), the third mounting seat (3b1) is fixedly mounted on the annular guide rail (2 a);

the second rotary driver (3b2), the second rotary driver (3b2) is fixedly installed on the third installation seat (3b1), and the axis of the driving end of the second rotary driver (3b2) is parallel to the axis of the annular guide rail (2 a);

the first main shaft (3b3), the driving end of the first main shaft (3b3) is fixedly connected with the driving end of the second rotary driver (3b2), and the axes of the driving ends of the first main shaft (3b3) and the second rotary driver (3b2) are collinear;

the first rotating wheel (3b4), the first rotating wheel (3b4) is fixedly sleeved on the first spindle (3b 3);

a second main shaft (3b5), the second main shaft (3b5) is rotatably arranged on the annular guide rail (2a), and the axis of the second main shaft (3b5) is parallel to the axis of the first main shaft (3b 3);

the second rotating wheel (3b6), the second rotating wheel (3b6) is fixedly sleeved on the second spindle (3b 5);

the synchronous belt (3b7), the synchronous belt (3b7) is sleeved on the first rotating wheel (3b4) and the second rotating wheel (3b 6);

spacing (3b8), spacing (3b8) are fixed to be set up on ring rail (2a), and spacing (3b8) are the long and thin shape of annular, and spacing (3b8) and ring rail (2a) axis collineation.

4. The upper softening and wrinkle-removing device for the multifunctional PU fabric shoes according to claim 2, wherein the driving device (3) further comprises a linear driving component (3c), the linear driving component (3c) comprises:

the first sliding chute (3c1), the first sliding chute (3c1) is fixedly arranged on the rack (1), and the working direction of the first sliding chute (3c1) is horizontally arranged;

the second sliding chute (3c2), the second sliding chute (3c2) is fixedly arranged on the frame (1), and the working direction of the second sliding chute (3c2) is parallel to the first sliding chute (3c 1);

the first supporting block (3c3), the first supporting block (3c3) is movably mounted on the first sliding chute (3c1), the first supporting block (3c3) is fixedly connected with the annular guide rail (2a), and the first supporting block (3c3) can move along the first sliding chute (3c 1);

the second supporting block (3c4), the second supporting block (3c4) is movably mounted on the second sliding chute (3c2), the second supporting block (3c4) is fixedly connected with the annular guide rail (2a), and the second supporting block (3c4) can move along the second sliding chute (3c 2);

the second supporting block (3c4), the second supporting block (3c4) is fixedly installed on the frame (1);

the third rotary driver (3c6), the third rotary driver (3c6) is fixedly installed on the second supporting block (3c4), and the axis of the driving end of the third rotary driver (3c6) is parallel to the working direction of the first sliding chute (3c 1);

the screw (3c7), the screw (3c7) is fixedly connected with the driving end of the third rotary driver (3c6), the screw (3c7) is in threaded connection with the first supporting block (3c3), and the axis of the screw (3c7) is collinear with the axis of the third rotary driver (3c 6);

and the guide rod (3c8), the guide rod (3c8) is connected with the second supporting block (3c4) in a sliding mode, and the axis of the guide rod (3c8) is parallel to the axis of the screw rod (3c 7).

5. The vamp softening and wrinkle-removing device for the multifunctional PU fabric shoes as claimed in claim 1, wherein the wrinkle-removing assembly (2) further comprises a heat shield (2g), the heat shield (2g) is fixedly mounted on the connecting pipe (2c), and the heat shield (2g) is a semi-cylindrical shell.

6. The softening and wrinkle-removing device for the shoe uppers made of multifunctional PU fabrics according to claim 1, is characterized in that the wrinkle-removing device further comprises a material-moving device (4), the material-moving device (4) comprises a conveying assembly (4a), the conveying assembly (4a) comprises a conveying belt (4a1) and a fourth rotary driver (4a2), the conveying belt (4a1) is fixedly installed on the machine frame (1), and the fourth rotary driver (4a2) is fixedly installed on the conveying belt (4a 1).

7. The multifunctional PU fabric shoe upper softening and wrinkle-removing device according to claim 1, wherein the water tank (2d) comprises a flexible pipe (2d1), the flexible pipe (2d1) is fixedly arranged on the water tank (2d), and the flexible pipe (2d1) is made of flexible material.

8. The shoe upper softening and wrinkle-removing device for the multifunctional PU fabric shoes according to claim 1, wherein the wrinkle-removing component (2) further comprises a roller (2f), and the roller (2f) is fixedly arranged on the first mounting seat (2 b).

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