CN111826868B - Shuttle type steam ironing and cloth pulling integrated machine - Google Patents

Abstract

The utility model provides a shuttle formula steam ironing and granny rag all-in-one, includes granny rag platform (1), its characterized in that: the cloth pulling platform is characterized in that linear cylinders (4) are horizontally arranged on two sides of the cloth pulling platform (1) in the length direction respectively, an upper cylinder opening (5) is formed in the upper surface of each linear cylinder (4) along the axis, a front end sealing cover (6) is arranged at the front end of each linear cylinder (4), a rear end sealing cover (7) is arranged at the rear end of each linear cylinder (4), a cylinder piston is arranged inside each linear cylinder (4), a sealing sliding shuttle (11) is arranged on each upper cylinder opening (5), each sealing sliding shuttle (11) is connected with the corresponding cylinder piston, and steam release holes (12) are formed in the front end and the rear end of each sealing sliding shuttle (11).

Description

Shuttle type steam ironing and cloth pulling integrated machine

Technical Field

The invention relates to ironing and cloth-spreading equipment, in particular to a shuttle-type steam ironing and cloth-spreading integrated machine, and belongs to the technical field of cloth processing equipment.

Background

The cloth spreading machine is a common auxiliary device in large-scale clothing production and processing, the initial stage of the clothing processing at present needs to uncoil and spread coiled cloth, the uncoiling and spreading in the prior art are carried out on a long platform with the length of tens of meters, and the uncoiling and spreading are realized by rolling a thick cloth coil on the long platform back and forth. The existing transmission modes such as the lead screw transmission, the steel wire transmission, the self-propelled driving wheel and the like of the spreading machine reciprocate on the long platform for a plurality of times along the fixed track, so that the spreading and unreeling are realized. The length of the granny rag platform is very long, and a large-scale granny rag platform is dozens of meters long, and traditional transmission mode structure is complicated, and is with high costs, and the energy consumption is great, and the load that bears the weight of formula moving platform and bearing the cloth reel back and forth movement in-process is great moreover, can cause very big vibration and impact to whole platform, and the fault rate is higher, cuts out the problem that quality and specification are difficult to guarantee. In addition, the ironing operation is needed after the granny rag is uncoiled and cut off, the operation procedure is complex, the labor intensity of workers is high, and an ironing and granny rag integrated device which is reasonable in structure, simple in transmission structure and suitable for long-distance transmission is lacked all the time to solve the technical problem.

Disclosure of Invention

The invention aims to overcome the defects and shortcomings that the existing long-distance transmission device of an uncoiling and spreading mechanism is complex, high in cost, high in energy consumption and high in failure rate, ironing operation is required after the spreading is uncoiled and cut, the labor intensity is high, and the processing efficiency is low.

In order to achieve the purpose, the technical solution of the invention is as follows: the utility model provides a shuttle formula steam iron and granny rag all-in-one, includes the granny rag platform, its characterized in that: the upper part of one end of the cloth pulling platform is provided with a scroll placing seat, two sides of the cloth pulling platform in the length direction are respectively and horizontally provided with a linear cylinder, the upper surface of the linear cylinder is provided with an upper cylinder opening along the axis, the front end of the linear cylinder is provided with a front end sealing cover, the rear end of the linear cylinder is provided with a rear end sealing cover, a cylinder piston is arranged inside the linear cylinder, the upper cylinder opening is provided with a sealing sliding shuttle which is connected with the cylinder piston, the front end and the rear end of the sealing sliding shuttle are respectively provided with a steam release hole, two sides of the cloth pulling platform are respectively provided with a rack parallel to the linear cylinder, a moving seat is arranged above the linear cylinder and the rack and is connected with the sealing sliding shuttle, a limiting roller is arranged on the moving seat and is attached to the outer side surface of the rack, two opposite moving seats are connected and fixed through a connecting frame, measuring gears are respectively arranged on the moving seats, the axes of the two measuring gears are connected and fixed through gear connecting shafts, the measuring gears are meshed with rotary encoders, a vertical lifting device is arranged in the middle of the connecting frame, a steam release lifting device is horizontally arranged on the lower lifting end of the vertical lifting device, two steam ironing plates, two steam ironing inlets of the steam ironing plate are respectively communicated with steam ironing inlets of the steam ironing plate, and ironing solenoid valves.

Furthermore, a cloth winding drum is placed on the scroll placing seat, and the axis of the cloth winding drum is perpendicular to the axis of the linear cylinder.

Furthermore, the front end sealing cover and the rear end sealing cover are connected with the end part of the linear cylinder through a thread structure or a buckle structure, the front end sealing cover and the rear end sealing cover are respectively plugged on an end opening of the linear cylinder, the front end sealing cover and the rear end sealing cover are respectively provided with a steam pipe mounting joint, the steam pipe mounting joints are respectively connected with the output end of the steam pressure pump through pipelines, and the input end of the steam pressure pump is communicated with an external steam generator.

Furthermore, the cylinder piston comprises a piston inner cylinder and a middle partition, the piston inner cylinder is of a rubber cylinder structure with openings at two ends, the middle part of the piston inner cylinder is provided with the middle partition for blocking the communication of the two ends, and the outer circumference of the piston inner cylinder is in tight fit with the inner wall of the linear cylinder in a pressing mode.

Further, vertical lift device includes the slide rail, irones the sliding seat, lead screw and step motor, and the slide rail is installed at the middle part of link, installs on the slide rail and irones the sliding seat, irones the sliding seat and is connected with the lead screw through the lead screw nut, and the one end of lead screw is installed on the link through the bearing frame, and the other end of lead screw is fixed mutually with step motor's pivot, irones the lower extreme of sliding seat and installs steam ironing board.

Furthermore, two or more electromagnetic clamping devices are installed on the connecting frame.

Furthermore, an electromagnetic damper is installed on the outer side of the measuring gear, the electromagnetic damper comprises an electromagnetic driver and a telescopic damping block, the telescopic end of the electromagnetic driver is provided with the telescopic damping block, and the telescopic damping block is close to the outer circumferential surface of the measuring gear.

Furthermore, a distance sensor is embedded in the lower surface of the steam ironing plate and corresponds to the cloth laid on the upper surface of the spreading platform.

Furthermore, a controller is arranged on the movable seat, the input end of the controller is respectively connected with the rotary encoder and the distance sensor, and the output end of the controller is respectively connected with the electromagnetic damper, the stepping motor and the electromagnetic valve (30).

The invention has the beneficial effects that:

1. the invention adopts a transmission structure of the linear cylinder and the sealed sliding shuttle, effectively solves the technical problem of long-distance transmission, the sealed sliding shuttle is provided with the steam release holes, the two steam release holes alternately discharge steam in the process of realizing long-distance reciprocating movement, and the cloth is synchronously ironed by using the high-temperature steam after acting, thereby realizing the repeated high-efficiency utilization of the steam.

2. The moving seat moves back and forth in the horizontal direction under the driving of the sealing shuttle, so that the cloth is quickly drawn and unreeled, the noise is low, the vibration is low, the response speed is high by taking steam as power, the cloth drawing operation with any length can be adapted, meanwhile, the moving position can be detected in real time by adopting the rotary encoder, the moving speed and the stopping position can be accurately controlled by using the electromagnetic damper, and the cloth drawing cutting precision is improved.

3. The invention has compact structure, effectively solves the technical problem of long-distance transmission, reduces the cost, has lower energy consumption, skillfully realizes the synchronous completion of cloth stretching and ironing, has high degree of automation, greatly lightens the labor intensity of workers and improves the processing efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural diagram of the mobile station and its accessories according to the present invention.

Fig. 3 is a top view of the linear cylinder and rack of the present invention.

Fig. 4 is a cross-sectional view of a linear cylinder of the present invention.

FIG. 5 is a cross-sectional view of the linear cylinder with the cylinder piston and sealed shuttle of the present invention installed.

Figure 6 is a transverse cross-sectional view of the piston of the cylinder of the present invention.

In the figure: the cloth ironing device comprises a cloth pulling platform 1, a scroll placing seat 2, a cloth winding drum 3, a linear cylinder 4, an upper opening 5 of the cylinder, a front end sealing cover 6, a rear end sealing cover 7, a piston inner cylinder 9, a middle partition 10, a sealing shuttle 11, a steam releasing hole 12, a rack 13, a moving seat 14, a connecting frame 15, a limiting roller 16, a measuring gear 17, a gear connecting shaft 18, a rotary encoder 19, an electromagnetic damper 20, a controller 21, an electromagnetic clamp 22, a sliding rail 23, an ironing sliding seat 24, a lead screw 25, a stepping motor 26, a distance sensor 27, a steam ironing plate 28, an ironing steam conveying pipe 29 and an electromagnetic valve 30.

Detailed Description

The invention is described in further detail below with reference to the following description of the drawings and the detailed description.

Referring to fig. 1 to 6, the shuttle-type steam ironing and spreading integrated machine of the present invention comprises a spreading platform 1, and is characterized in that: a scroll placing seat 2 is arranged above one end of the granny rag platform 1, two sides of the granny rag platform 1 in the length direction are respectively and horizontally provided with a linear cylinder 4, the upper surface of the linear cylinder 4 is provided with a cylinder upper opening 5 along the axis, the front end of the linear cylinder 4 is provided with a front end sealing cover 6, the rear end of the linear cylinder 4 is provided with a rear end sealing cover 7, a cylinder piston is arranged inside the linear cylinder 4, the cylinder upper opening 5 is provided with a sealing shuttle 11, the sealing shuttle 11 is connected with the cylinder piston, the front end and the rear end of the sealing shuttle 11 are respectively provided with a steam shuttle releasing hole 12, two sides of the granny rag platform 1 are respectively provided with a rack 13 which is parallel to the linear cylinder 4, a moving seat 14 is arranged above the linear cylinder 4 and the rack 13, the moving seat 14 is connected with the sealing shuttle 11, the movable seats 14 are provided with limiting idler wheels 16, the limiting idler wheels 16 are attached to the outer side faces of the racks 13, the two opposite movable seats 14 are fixedly connected through a connecting frame 15, the movable seats 14 are respectively provided with measuring gears 17, the axes of the two measuring gears 17 are fixedly connected through a gear connecting shaft 18, the measuring gears 17 are meshed with the racks 13, the measuring gears 17 are connected with rotary encoders 19, the middle of the connecting frame 15 is provided with a vertical lifting device, a steam ironing plate 28 is horizontally arranged on the lifting end of the lower portion of the vertical lifting device, steam inlets of the steam ironing plate 28 are respectively communicated with steam release holes 12 at the front end and the rear end of the sealed shuttle 11 through ironing steam conveying pipes 29, and electromagnetic valves 30 are arranged at the outer ends of the steam release holes 12 or on the ironing steam conveying pipes 29.

The reel placing seat 2 is provided with a cloth reel 3, and the axial lead of the cloth reel 3 is vertical to the axial lead of the linear cylinder 4.

The steam pipe sealing structure is characterized in that the front end sealing cover 6 and the rear end sealing cover 7 are connected with the end part of the linear cylinder 4 through a threaded structure or a buckle structure, the front end sealing cover 6 and the rear end sealing cover 7 are respectively plugged on an end opening of the linear cylinder 4, steam pipe mounting joints are respectively arranged on the front end sealing cover 6 and the rear end sealing cover 7, the steam pipe mounting joints are respectively connected with the output end of a steam pressure pump through pipelines, and the input end of the steam pressure pump is communicated with an external steam generator.

The cylinder piston comprises a piston inner cylinder 9 and a middle partition 10, the piston inner cylinder 9 is of a rubber cylinder structure with two open ends, the middle part of the piston inner cylinder 9 is provided with the middle partition 10 for blocking the communication of the two ends, and the outer circumference of the piston inner cylinder 9 is in tight fit with the inner wall of the linear cylinder 4 in a pressing mode.

The vertical lifting device comprises a slide rail 23, an ironing slide seat 24, a screw rod 25 and a stepping motor 26, wherein the slide rail 23 is arranged in the middle of the connecting frame 15, the ironing slide seat 24 is arranged on the slide rail 23, the ironing slide seat 24 is connected with the screw rod 25 through a screw rod nut, one end of the screw rod 25 is arranged on the connecting frame 15 through a bearing seat, the other end of the screw rod 25 is fixed with a rotating shaft of the stepping motor 26, and a steam ironing plate 28 is arranged at the lower end of the ironing slide seat 24.

Two or more electromagnetic clamping devices 22 are mounted on the connecting frame 15.

Electromagnetic damper 20 is installed in the outside of measuring gear 17, and electromagnetic damper 20 includes electromagnetic drive ware and flexible damping piece, installs flexible damping piece on electromagnetic drive ware's the flexible end, and flexible damping piece is pressed close to measuring gear 17's outside periphery.

The lower surface of the steam ironing plate 28 is embedded with a distance sensor 27, and the distance sensor 27 is arranged corresponding to the cloth laid on the upper surface of the cloth spreading platform 1.

The moving seat 14 is provided with a controller 21, the input end of the controller 21 is respectively connected with the rotary encoder 19 and the distance sensor 27, and the output end of the controller 21 is respectively connected with the electromagnetic damper 20, the stepping motor 26 and the electromagnetic valve 30.

Referring to fig. 1 and 2, the unreeling method of the invention is different from the unreeling method of the traditional granny rag platform, in the arrangement of the reel placing seat, the reel placing seat is arranged on the sliding seat or the movable trolley by the existing granny rag platform, the reel placing seat needs to move back and forth in the granny rag unreeling process, and the cloth reel has large width and reel diameter, so that the whole weight is large, and the load in the back and forth moving process is large, thereby causing large vibration and impact on the whole platform. The invention adopts a structure form that the scroll placing seat is fixed, one end of cloth is pulled to move instead of driving the whole cloth winding drum to move back and forth, the scroll placing seat 2 is arranged above one end of the cloth pulling platform 1, the cloth winding drum 3 is placed on the scroll placing seat 2, and the axis line of the cloth winding drum 3 is vertical to the axis line of the cloth pulling.

The invention abandons various transmission modes of the traditional spreading platform, does not adopt transmission modes of a lead screw transmission, a steel wire transmission, a self-propelled driving wheel and the like, but creatively adopts a cylinder transmission mode taking steam as power, and obtains unexpected technical effects. The concrete structure is as follows: according to the invention, linear cylinders 4 are respectively arranged on two sides of a cloth spreading platform 1 in the length direction, the two linear cylinders 4 distributed left and right are respectively parallel to the upper surface of the cloth spreading platform 1, and the axial leads of the two linear cylinders 4 distributed left and right are also parallel to each other. The linear cylinder 4 is made of a high-precision stainless steel pipe which is resistant to high temperature and can bear certain air pressure, and the inner diameter of the linear cylinder 4 is 3-12 cm. The upper surfaces of the two linear cylinders 4 are provided with cylinder upper openings 5 along the axis, and the purpose of the cylinder upper openings 5 is to facilitate the installation of the seal shuttle 11. In addition, a small section of sealing structure can be arranged on the linear cylinder 4 close to the upper openings 5 of the cylinders at the two ends or a limiting block 2 is arranged on the linear cylinder 4, so that the limiting effect on the sealed shuttle 11 can be achieved, and the overtravel of the sealed shuttle 11 is prevented.

The front end of the linear cylinder 4 is provided with a front end sealing cover 6, the rear end of the linear cylinder 4 is provided with a rear end sealing cover 7, the front end sealing cover 6 and the rear end sealing cover 7 are connected with the end part of the linear cylinder 4 through a thread structure or a buckle structure, the front end sealing cover 6 and the rear end sealing cover 7 are respectively plugged on an end opening of the linear cylinder 4, the front end sealing cover 6 and the rear end sealing cover 7 are respectively provided with a steam pipe mounting joint, the steam pipe mounting joints are respectively connected with the output end of a steam booster pump through pipelines, the input end of the steam booster pump is communicated with an external steam source such as a steam generator or a boiler, and the steam source such as the steam generator or the boiler is pressurized by the steam booster pump and then conveyed into the linear cylinder 4 to serve as a power source of the invention.

The linear cylinder 4 is internally provided with a cylinder piston, the cylinder piston comprises a piston inner cylinder 9 and a middle partition 10, the piston inner cylinder 9 is of a rubber cylinder structure with two open ends, the middle part of the piston inner cylinder 9 is provided with the middle partition 10 for blocking the communication of the two ends, and the outer circumference of the piston inner cylinder 9 is in tight fit with the inner wall of the linear cylinder 4. The cylinder piston can be pushed by high-pressure steam to linearly move in the linear cylinder 4 while ensuring tight sealing between the cylinder piston and the inner wall of the linear cylinder 4, and the front end and the rear end of the linear cylinder 4 can alternately input the high-pressure steam to realize forward or backward movement of the cylinder piston, so that the middle position in the piston inner cylinder 9 needs to be provided with the middle partition 10 and a symmetrical structure is formed. The upper opening 5 of the cylinder is provided with a sealing shuttle 11, the sealing shuttle 11 is connected with a cylinder piston, the sealing shuttle 11 can be integrated with the cylinder piston, and the cylinder piston and the sealing shuttle 11 move simultaneously. In addition, air passages are formed inside the cylinder piston and the sealed shuttle 11, and a steam release hole 12 on the outer surface of the sealed shuttle 11 is communicated with the inner cavity of the linear cylinder 4.

Two sides of the spreading platform 1 are respectively provided with a rack 13 parallel to the linear cylinder 4, a moving seat 14 is arranged above the linear cylinder 4 and the rack 13, and the two opposite moving seats 14 are connected and fixed through a connecting frame 15. The moving seats 14 on the same side are respectively connected with the sealing shuttle 11 on the same side, and the sealing shuttle 11 can drive the moving seats 14 to realize linear motion in two directions. The moving seat 14 is provided with a limiting roller 16, the limiting roller 16 is attached to the outer side face of the rack 13, and the limiting roller 16 is used for limiting the moving seat 14 from two outer side faces to prevent the moving seat 14 from being biased in the moving process.

In order to measure the cloth spreading moving distance of the moving seat 14 and feed back signals, the measuring gears 17 are respectively arranged on the moving seat 14, the axes of the two measuring gears 17 are connected and fixed through a gear connecting shaft 18, and the measuring gears 17 are meshed with the racks 13. Meanwhile, a rotary encoder 19 is adopted, the measuring gear 17 is connected with the rotary encoder 19, when the moving seat 14 moves, the measuring gear 17 rotates synchronously, the rotary encoder 19 measures the rotation angle and the rotation number of turns of the measuring gear 17 accurately, and signals are transmitted to the controller 21 to be used as part of closed-loop control.

The middle part of the connecting frame 15 is provided with a vertical lifting device, the lifting end at the lower part of the vertical lifting device is horizontally provided with a steam ironing board 28, the vertical lifting device can drive the steam ironing board 28 to perform lifting action, and the steam ironing board 28 is used for performing steam ironing on the unreeled and unfolded cloth. The vertical lifting device comprises a slide rail 23, an ironing slide seat 24, a screw rod 25 and a stepping motor 26, wherein the slide rail 23 is installed in the middle of the connecting frame 15, the ironing slide seat 24 is installed on the slide rail 23, the ironing slide seat 24 is connected with the screw rod 25 through a screw rod nut, one end of the screw rod 25 is installed on the connecting frame 15 through a bearing seat, the other end of the screw rod 25 is fixed with a rotating shaft of the stepping motor 26, and a steam ironing plate 28 is installed at the lower end of the ironing slide seat 24. A distance sensor 27 is embedded in the lower surface of the steam ironing board 28, and the distance sensor 27 is arranged corresponding to the cloth laid on the upper surface of the spreading platform 1.

The front end and the rear end of the sealed shuttle 11 are respectively provided with a steam release hole 12, the steam release holes 12 are used for releasing steam which is subjected to primary work in the linear cylinder 4, and the two steam release holes 12 are alternately released. The steam inlet of the steam ironing board 28 is respectively communicated with the steam release holes 12 at the front and rear ends of the sealed shuttle 11 through an ironing steam delivery pipe 29, and the solenoid valve 30 is installed at the outer end of the steam release hole 12 or the ironing steam delivery pipe 29. For example: after high-pressure steam is pressed into the linear cylinder 4 from the front end sealing cover 6, the high-pressure steam can push the cylinder piston, the sealing shuttle 11 and the moving seat 14 to move towards the rear end and move to a preset position, and when the high-pressure steam needs to move reversely, the steam release hole 12 close to the front end is opened, the high-pressure steam is pressed into the linear cylinder 4 from the rear end sealing cover 7, the high-pressure steam can push the cylinder piston, the sealing shuttle 11 and the moving seat 14 to move towards the front end, the cylinder piston can press high-temperature steam in the front section cavity of the linear cylinder 4 out through the steam release hole 12 while moving towards the front end, the high-temperature steam gradually enters the steam ironing plate 28 through a pipeline, and the cloth after unreeling and unfolding is ironed along the way in the direction process, and the ironing is carried out in a reciprocating mode.

In order to accurately control the running speed of the sealed shuttle 11 under the action of high-temperature steam and accurately stop at a preset position, the electromagnetic damper 20 is arranged on the outer side of the measuring gear 17 and has the function equivalent to a braking device, the electromagnetic damper 20 comprises an electromagnetic driver and a telescopic damping block, the telescopic end of the electromagnetic driver is provided with the telescopic damping block, and the telescopic damping block is close to the outer circumferential surface of the measuring gear 17. Two or more electromagnetic clamping devices 22 are mounted on the connecting frame 15, the electromagnetic clamping devices 22 are used for clamping and fixing one end of the fabric on the fabric winding drum 3 for unwinding, and the electromagnetic clamping devices 22 realize fabric unwinding under the linear movement of the moving seat 14. The same as the traditional spreading platform, the invention also arranges a cutting machine for cutting off the cloth after the spreading and rolling are finished on the spreading platform 1.

The controller 21 is arranged on the moving seat 14, the input end of the controller 21 is respectively connected with the rotary encoder 19 and the distance sensor 27, and the output end of the controller 21 is respectively connected with the electromagnetic damper 20, the stepping motor 26 and the electromagnetic valve 30, so that closed-loop control is realized. In addition, a portable power source or a rechargeable battery is mounted on the movable base 14 for supplying power to the controller 21, the electromagnetic damper 20, the stepping motor 26, the electromagnetic valve 30, and the like. The cloth spreading machine effectively solves the transmission problem of the existing long-distance cloth spreading machine, realizes the integrated operation of cloth spreading and ironing by taking steam as power, greatly saves the production cost, improves the production efficiency and lightens the labor intensity of operators.

The above is a further detailed description of the present invention with reference to specific embodiments, and the specific embodiments of the present invention should not be considered as limited to these descriptions, and it should be understood that the invention is not limited to the modifications and substitutions by those skilled in the art without departing from the spirit of the present invention.

Claims (7)

1. The utility model provides a shuttle formula steam ironing and granny rag all-in-one, includes granny rag platform (1), its characterized in that: a scroll placing seat (2) is installed above one end of the spreading platform (1), two sides of the spreading platform (1) in the length direction are respectively and horizontally provided with a linear cylinder (4), the upper surface of the linear cylinder (4) is provided with an upper cylinder opening (5) along the axis, the front end of the linear cylinder (4) is provided with a front end sealing cover (6), the rear end of the linear cylinder (4) is provided with a rear end sealing cover (7), the front end sealing cover (6) and the rear end sealing cover (7) are connected with the end part of the linear cylinder (4) through a thread structure or a buckle structure, the front end sealing cover (6) and the rear end sealing cover (7) are respectively blocked on the end opening of the linear cylinder (4), the front end sealing cover (6) and the rear end sealing cover (7) are respectively provided with a steam pipe mounting joint, the steam pipe mounting joints are respectively connected with the output end of a steam pressure pump through a pipeline, the input end of the steam pressure pump is communicated with an external steam generator, a cylinder piston is installed inside the linear cylinder (4), the upper cylinder opening (5) is provided with a sealing shuttle (11), the middle part of the piston (9) is provided with a middle blocking piston (9), two blocking piston (10) of an inner cylinder (9) and a middle blocking piston) which are communicated with a middle piston (9), the outer circumference of the piston inner cylinder (9) is in tight fit with the inner wall of the linear cylinder (4) in a pressing way, the front end and the rear end of the sealed sliding shuttle (11) are respectively provided with a steam release hole (12), the two sides of the spreading platform (1) are respectively provided with a rack (13) parallel to the linear cylinder (4), a moving seat (14) is arranged above the linear cylinder (4) and the rack (13), the moving seat (14) is connected with the sealed sliding shuttle (11), a limiting roller (16) is arranged on the moving seat (14), the limiting roller (16) is attached to the outer side surface of the rack (13), two opposite moving seats (14) are fixedly connected through a connecting frame (15), and measuring gears (17) are respectively arranged on the moving seats (14), the axes of the two measuring gears (17) are connected and fixed through a gear connecting shaft (18), the measuring gears (17) are meshed with the racks (13), the measuring gears (17) are connected with a rotary encoder (19), the middle part of the connecting frame (15) is provided with a vertical lifting device, the lower lifting end of the vertical lifting device is horizontally provided with a steam ironing plate (28), the steam inlets of the steam ironing plate (28) are respectively communicated with the steam release holes (12) at the front end and the rear end of the sealed sliding shuttle (11) through ironing steam conveying pipes (29), the outer ends of the steam release holes (12) or the ironing steam conveying pipes (29) are provided with steam ironing plates Has an electromagnetic valve (30).

2. A shuttle steam ironing and tarpaulin unit according to claim 1, characterized in that: the reel placing seat (2) is provided with a cloth reel (3), and the axial lead of the cloth reel (3) is vertical to the axial lead of the linear cylinder (4).

3. A shuttle steam ironing and tarpaulin unit according to claim 1, characterized in that: the vertical lifting device comprises a sliding rail (23), an ironing sliding seat (24), a lead screw (25) and a stepping motor (26), the sliding rail (23) is installed in the middle of the connecting frame (15), the ironing sliding seat (24) is installed on the sliding rail (23), the ironing sliding seat (24) is connected with the lead screw (25) through a lead screw nut, one end of the lead screw (25) is installed on the connecting frame (15) through a bearing seat, the other end of the lead screw (25) is fixed with a rotating shaft of the stepping motor (26), and a steam ironing plate (28) is installed at the lower end of the ironing sliding seat (24).

4. A shuttle steam ironing and tarpaulin unit according to claim 1, characterized in that: two or more electromagnetic clamping devices (22) are arranged on the connecting frame (15).

5. A shuttle steam ironing and tarpaulin unit according to claim 1, characterized in that: electromagnetic damper (20) are installed in the outside of measuring gear (17), and electromagnetic damper (20) are including electromagnetic drive ware and flexible damping piece, and electromagnetic drive ware's flexible end is last to install flexible damping piece, and the outside periphery of measuring gear (17) is pressed close to flexible damping piece.

6. A shuttle steam ironing and tarpaulin unit according to claim 1, characterized in that: the lower surface of the steam ironing plate (28) is embedded with a distance sensor (27), and the distance sensor (27) is arranged corresponding to the cloth laid on the upper surface of the cloth spreading platform (1).

7. A shuttle steam ironing and tarpaulin unit according to claim 1, characterized in that: the moving seat (14) is provided with a controller (21), the input end of the controller (21) is respectively connected with the rotary encoder (19) and the distance sensor (27), and the output end of the controller (21) is respectively connected with the electromagnetic damper (20), the stepping motor (26) and the electromagnetic valve (30).

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