CN112695463B - Bathrobe burr treatment machine and treatment method thereof - Google Patents

Abstract

The invention discloses a bathrobe burr treatment machine and a treatment method thereof. The machine comprises a machine base, a track and a serging power head are fixed on the machine base, a driving clamping block and a driven clamping block are arranged on the upper end face of the track, the driving clamping block and the driven clamping block are arranged on the same straight line and are in sliding connection with the track, a first fixing rod is fixed on the driving clamping block, a first through hole matched with the first fixing rod is formed in the driven clamping block, the first fixing rod is located in the first through hole and is in sliding connection with the driven clamping block, a fastening assembly is arranged between the driven clamping block and the first fixing rod, and the serging power head is located between the driving clamping block and the driven clamping block and is arranged above the straight line formed by the driving clamping block and the driven clamping block. The invention has the beneficial effects that: the distance between the driving clamping block and the driven clamping block can be freely adjusted; the positioning precision of the equipment lockrand is improved; the safety is good; the fixing efficiency is improved; the fixing effect is good, and the processing efficiency and the processing quality are improved.

Description

Bathrobe burr treatment machine and treatment method thereof

Technical Field

The invention relates to the technical field of bathrobes, in particular to a bathrobe burr treatment machine and a treatment method thereof.

Background

The bath robe is specially used for wearing before and after bathing, is wide and comfortable, and generally comprises cotton cloth, coral fleece, terry, waffle grids, bamboo fiber and other materials. After the bathrobe is used and cleaned for multiple times, burrs in a certain area can appear, and therefore the burr area of the bathrobe needs to be subjected to edge locking treatment.

Current deckle edge processor is when removing the lockstitch to the deckle edge region of bathrobe, mostly all supports by the manual work, appears fixing a position the unsafe condition very easily to can't carry out accurate regulation according to the width of the required lockstitch of bathrobe, and then influence the positioning accuracy of bathrobe lockstitch. Meanwhile, when manual positioning is in error, the hands are easily damaged by the needle and the thread, and the safety is low.

Disclosure of Invention

The invention provides a bathrobe rough edge processing machine with high positioning accuracy and a processing method thereof, aiming at overcoming the defect of low positioning accuracy in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a bathrobe deckle edge processor, includes the frame, be fixed with track and serging unit head on the frame, be equipped with initiative clamp splice and driven clamp splice on the orbital up end, initiative clamp splice and driven clamp splice are arranged in on the same straight line and all with track sliding connection, be fixed with dead lever one on the initiative clamp splice, be equipped with on the driven clamp splice with a dead lever assorted through-hole one, dead lever one be located in the through-hole one and with driven clamp splice sliding connection, be provided with fastening component between driven clamp splice and the dead lever one, the serging unit head is located between initiative clamp splice and the driven clamp splice and arranges the top of the straight line that initiative clamp splice and driven clamp splice formed in.

The rough edges of the bathrobe are subjected to the serging operation through the serging power head. Through the sliding design of the driven clamping block relative to the first fixing rod, the distance between the driving clamping block and the driven clamping block can be freely adjusted according to the length of the bath robe to be subjected to edge locking, and the bath robe is fixed through the fastening assembly after the adjustment. The two sides of the rough edge part of the bathrobe are clamped by the driving clamping block and the driven clamping block instead of hands, so that the phenomenon that the width of the required lockstitch of the bathrobe is different due to inaccurate manual moving and positioning is avoided, and the positioning precision of the lockstitch of the equipment is improved.

Preferably, the track is provided with a first sliding groove matched with the driving clamping block and a second sliding groove matched with the driven clamping block, the first sliding groove and the second sliding groove are located on the same straight line, the driving clamping block and the driven clamping block are respectively installed in the first sliding groove and the second sliding groove and are in sliding connection with the first sliding groove and the second sliding groove, a serging platform is fixed on the track, and the serging platform is arranged between the first sliding groove and the second sliding groove and is located under a serging power head. Through the slip of initiative clamp splice in spout one and the slip of driven clamp splice in spout two, reach the operation purpose that the serging power head removed the serging to the bathrobe deckle edge on the serging bench, need not the hand push cloth, effectively avoid the syringe needle to prick the finger, have fine security.

As preferred, an internal rotation of spout is connected with dwang one, the one end of dwang one is installed on the inside wall of spout one end, be fixed with the corresponding rotating electrical machines in position with dwang one on the lateral wall of the spout other end, the lateral wall that the other end of dwang one runs through spout opposite side is installed on the rotating electrical machines, be equipped with external screw thread one on the side of dwang one, be equipped with on the initiative clamp splice with the external screw thread one assorted internal thread hole one of dwang one, internal screw thread is arranged in and is connected with initiative clamp splice threaded connection through the cooperation of external screw thread one and internal screw thread hole one. The first rotating rod in the first sliding groove is driven to rotate through the rotating motor, and under the action of the first external threads and the first internal thread hole, the first active clamping block in the first sliding groove is driven to slide, so that the purpose of moving and locking the rough edges of the bathrobe is achieved.

As preferred, be equipped with side opening one and cavity one on the initiative clamp splice, side opening one sets up on the side of initiative clamp splice, cavity one is located side opening one's top, sliding connection has horizontal clamp plate one in the side opening one, the up end of horizontal clamp plate one is fixed with a plurality of connecting rods, the connecting rod runs through the top surface of side opening one and the bottom surface of cavity one and arranges in cavity one and with cavity one sliding connection, sliding connection has the slide in the cavity one, connecting rod and slide fixed connection, be equipped with through-hole two on the top surface of cavity one, through-hole two internal rotation is connected with dwang two, the one end of dwang two is located the outside of initiative clamp splice and is fixed with the knob on it, the other end of dwang two is installed on the bottom surface of cavity one and is rotated with cavity one and is connected, be equipped with external screw thread two on the side of dwang two, and the sliding plate is provided with a second internal thread hole matched with the second external thread of the rotating rod, and the rotating rod is arranged in the second internal thread hole and is in threaded connection with the sliding plate through the matching of the second external thread and the second internal thread hole. The initiative clamp splice is when carrying out the centre gripping, puts into side opening one side regional one side of deckle edge of bathrobe earlier on the bottom surface, and later the knob on the rotating dwang two drives dwang two and rotates, under the effect of external thread two and internal thread hole two, drives the slide downstream in the cavity one, and then drives the horizontal press plate downstream in the side opening one through the connecting rod and pushes down the bathrobe, realizes the fixed purpose in one side of the deckle edge region of bathrobe.

As preferred, the inside of dead lever one is equipped with the dead lever cavity, be equipped with side opening two on the lateral wall of dead lever cavity, be fixed with the fixed block that matches with side opening two on the inside wall of through-hole one, the fixed block arrange in the dead lever cavity through side opening two and with side opening two sliding connection, fastening assembly is including arranging the depression bar in the dead lever cavity in, the width of depression bar is less than the width of dead lever cavity, the side of fixed block is arranged in to the depression bar, be equipped with inclined plane one on the terminal surface of dead lever cavity one end, inclined plane one is towards side opening two, the one end of depression bar is equipped with the inclined plane two that matches with inclined plane one, inclined plane one is parallel with inclined plane two. When the pressing rod slides in the cavity of the fixing rod, under the action of the first inclined plane and the second inclined plane, the pressing rod can approach the fixing block towards the direction of the fixing block and extrude the fixing block, and the fixing of the driven clamping block on the first fixing rod is achieved.

Preferably, the inside cavity two that is equipped with of initiative clamp splice, the cavity is two in the top of cavity one, the cavity is two in the side of dead lever cavity, dwang two is located cavity two and rotates with cavity two to be connected, install drive assembly in the cavity two, the dwang is two to pass through drive assembly and the leg joint in the dead lever cavity. On transmitting the depression bar in the dead lever cavity through transmission assembly with the rotation of dwang two, and then drive the motion of depression bar in the dead lever cavity, realize the fixed of driven clamp splice on dead lever one, the structure is nimble, and convenient operation has also driven the fixed of driven clamp splice on dead lever one when the initiative clamp splice is fixed one side in the deckle edge region of living bathrobe, has improved work efficiency greatly.

As preferred, drive assembly is including installing turbine and the drive gear in cavity two, dwang two arrange in one side of turbine and through external screw thread two and turbine meshing above that, drive gear arrange in the opposite side of turbine and with the turbine meshing, be equipped with the slide push rod in the cavity two, the dead lever cavity is arranged in and with dead lever cavity sliding connection to the one end of slide push rod's lateral wall and the terminal surface of the dead lever cavity other end, slide push rod one end is located the side of the depression bar other end, be equipped with external screw thread three on the lateral surface of the slide push rod other end, be equipped with the internal thread hole three that matches with slide push rod's external screw thread three-phase on the drive gear, slide push rod's the other end is arranged in internal thread hole three and is connected with drive gear threaded connection through the cooperation of external screw thread three and internal thread hole three. Through the transmission of turbine and drive gear and external screw thread third and internal thread hole third, convert the rotation of dwang two into the slip of slip push rod in the dead lever cavity, promote the depression bar in order to realize the fixed of driven clamp splice. Through calculating and designing the transmission ratio of the turbine and the transmission gear, the driven clamping block can be just fixed by the pressing rod when the bathrobe is fixed by the driving clamping block, the structure is flexible, the operation is convenient, and the fixing efficiency is greatly improved.

Preferably, the driven clamping block is provided with a cavity III and a side opening III matched with the side opening I, the cavity three is positioned above the side opening three, a horizontal pressing plate two is connected in the side opening three in a sliding manner, a sliding rod is fixed on the upper end surface of the second horizontal pressing plate, the top surface of the third sliding rod penetrating through the side opening and the bottom surface of the third cavity are arranged in the third cavity and are in sliding connection with the third cavity, an iron block is fixed on the sliding rod, the iron block is arranged in the cavity III and is in sliding connection with the cavity III, a first return spring is fixed between the top of the iron block and the top surface of the cavity III, an induction coil and a battery block are installed inside the driven clamping block, the iron block is located induction coil's inboard, install resistance foil gage on the fixed block, battery piece and resistance foil gage electricity are connected, resistance foil gage and induction coil electricity are connected. Under natural state, the battery piece carries out the circular telegram back to induction coil, and induction coil can produce an electromagnetic force to the iron plate, and the iron plate moves up under the effect of this electromagnetic force, fixes at the top of cavity three when compressing reset spring one, and horizontal pressing plate two also fixes at the top of side opening three this moment. When the driven clamping block is used for clamping, the other side of the burr area of the bathrobe is placed on the bottom surface of the third side opening. When the fixed block receives the pressure effect from the depression bar to do the time spent, certain deformation takes place for resistance foil gage in it under the effect of pressure, resistance foil gage's resistance increase this moment, make the electric current that flows on induction coil diminish, lead to also diminishing to the electromagnetic force of iron plate, and the iron plate then moves down under the elastic action of gravity and reset spring one, and then drive horizontal pressing plate two downstream in the three side openings through the slide bar and push down the bathrobe, realize the fixed purpose of the regional opposite side of deckle edge of bathrobe, moreover, the steam generator is flexible in structure, and convenient for operation, also driven clamp splice has been driven when the depression bar is fixed to the fixed of the regional opposite side of deckle edge of bathrobe, further improved fixed efficiency.

Preferably, the bottom surface of the third side opening and the bottom surface of the first side opening are arranged on the same horizontal plane, the bottom surface of the third side opening is lower than the height of the table top of the serging table, a plurality of first inclined racks are fixed in the third side opening, the first inclined racks are arranged on the bottom surface of the third side opening in parallel, inclined planes on the first inclined racks are located on one side far away from the serging table and incline from bottom to top in the direction of the serging table, a sliding plate is connected to the lower end face of the second horizontal pressing plate in a sliding mode, second inclined racks matched with the first inclined racks are arranged on the bottom surface of the sliding plate, inclined planes on the second inclined racks are located on one side close to the serging table and incline from bottom to top in the direction of the serging table, and a second reset spring is arranged between the second horizontal pressing plate and the sliding plate. When the sliding plate on the second horizontal pressing plate moves to the bottom surface of the third side opening and presses the other side of the burr area of the bathrobe, the sliding plate can deviate from the second horizontal pressing plate by a certain amount and simultaneously pull the bathrobe outwards through the design of the first inclined rack and the second inclined rack, so that the burr part which is locked is always pulled tightly, the fixing effect is good, and the processing efficiency and the processing quality are improved. The second return spring plays a role in returning the sliding plate. Through the high design of lockstitch platform, can guarantee that equipment is removing the in-process of lockstitch, the bathrobe part on the lockstitch platform is tightened all the time, has further promoted fixed effect.

The invention also provides a processing method of the bathrobe rough edge processing machine, which comprises the following steps:

firstly, moving one of the positioning clamping blocks on the track to one side close to the serging table, and then adjusting the relative position of the other positioning clamping block according to the length of the bathrobe to be serged;

placing two sides of the burr area of the bathrobe on the clamping surfaces of the two positioning clamping blocks respectively, and laying the initial serging end of the burr area of the bathrobe on the table top of a serging table;

step three, operating a clamping switch on the positioning clamping blocks to fix the burr area of the bathrobe, and synchronously fixing two sides of the burr area of the bathrobe by the two positioning clamping blocks through a linkage device, wherein the other positioning clamping block is synchronously fixed on the track relative to one positioning clamping block;

and step four, starting the serging power head and the clamping block moving device, and realizing moving serging of the serging power head to the rough edges of the bathrobe through synchronous motion of the two positioning clamping blocks on the track.

The distance between the two positioning clamping blocks can be freely adjusted according to the length of the to-be-locked edge of the bathrobe, so that the fixing is convenient, and the applicability is wide; the positioning clamping blocks replace hands to clamp the two sides of the rough edge part of the bathrobe, so that the phenomenon that the required locking width of the bathrobe is different due to inaccurate manual movement and positioning is avoided, and the positioning precision of the equipment locking is improved; the linkage fixing is carried out through the linkage device, the structure is flexible, the operation is convenient, and the fixing efficiency is greatly improved.

The invention has the beneficial effects that: the distance between the driving clamping block and the driven clamping block can be freely adjusted according to the length of the to-be-locked edge of the bathrobe; the phenomenon that the required locking width of the bathrobe is different due to inaccurate manual moving and positioning is avoided, and the positioning precision of the equipment locking is improved; the cloth does not need to be pushed by hands, so that fingers are effectively prevented from being pricked by the needle head, and the safety is good; the structure is flexible, the operation is convenient, and the fixing efficiency is greatly improved; guarantee to be taut all the time by the deckle edge part of lockrand, fixed effectual improves machining efficiency and processingquality.

Drawings

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a right side view of the present invention;

FIG. 4 is an internal structural view of the active clamping block;

FIG. 5 is a view showing a coupling structure of the driving clamping block and the driven clamping block;

FIG. 6 is an internal structural view of the driven clamp block;

fig. 7 is an enlarged view at a in fig. 1.

In the figure: 1. driven clamping blocks, 2, a first fixing rod, 3, a machine base, 4, a serging power head, 5, a driving clamping block, 6, a track, 7, a serging table, 8, a second sliding groove, 9, a first sliding groove, 10, a first rotating rod, 11, a rotating motor, 12, a second rotating rod, 13, a second cavity, 14, a second external thread, 15, a second through hole, 16, a sliding plate, 17, a second internal thread hole, 18, a first side opening, 19, a first horizontal pressing plate, 20, a first cavity, 21, a connecting rod, 22, a first external thread, 23, a first internal thread hole, 24, a sliding push rod, 25, a third external thread, 26, a third internal thread hole, 27, a transmission gear, 28, a turbine, 29, a knob, 30, a second side opening, 31, a cavity of a fixing rod, 32, a first pressing rod, 33, a first through hole, 34, a fixing block, 35, a second inclined plane, 36. the battery pack comprises a first inclined plane, a first induction coil, a second iron block, a sliding rod, a second horizontal pressing plate, a third 41-side opening, a third 42-battery block, a third 43-cavity, a first 44-return spring, a first 45-sliding plate, a first 46-helical rack, a second 47-helical rack, a second 48-return spring.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

In the embodiment shown in fig. 1, 2 and 3, the bathrobe rough edge processor comprises a base 3, a rail 6 and a serging power head 4 are fixed on the base 3, a driving clamping block 5 and a driven clamping block 1 are arranged on the upper end face of the rail 6, the driving clamping block 5 and the driven clamping block 1 are arranged on the same straight line and are in sliding connection with the rail 6, a first fixing rod 2 is fixed on the driving clamping block 5, as shown in fig. 5, a first through hole 33 matched with the first fixing rod 2 is arranged on the driven clamping block 1, the first fixing rod 2 is arranged in the first through hole 33 and is in sliding connection with the driven clamping block 1, a fastening assembly is arranged between the driven clamping block 1 and the first fixing rod 2, and the serging power head 4 is arranged between the driving clamping block 5 and the driven clamping block 1 and is arranged above the straight line formed by the driving clamping block 5 and the driven clamping block 1.

As shown in fig. 1, 2 and 3, a first sliding groove 9 matched with the driving clamping block 5 and a second sliding groove 8 matched with the driven clamping block 1 are arranged on the track 6, the first sliding groove 9 and the second sliding groove 8 are located on the same straight line, the driving clamping block 5 and the driven clamping block 1 are respectively installed in the first sliding groove 9 and the second sliding groove 8 and are in sliding connection with the first sliding groove 9 and the second sliding groove 8, a serging table 7 is fixed on the track 6, and the serging table 7 is arranged between the first sliding groove 9 and the second sliding groove 8 and is located right below the serging power head 4.

As shown in fig. 2 and 4, a first rotating rod 10 is connected to the first sliding groove 9 in a rotating mode, one end of the first rotating rod 10 is installed on the inner side wall of one end of the first sliding groove 9, a rotating motor 11 corresponding to the first rotating rod 10 is fixed on the outer side wall of the other end of the first sliding groove 9, the other end of the first rotating rod 10 penetrates through the side wall of the other side of the first sliding groove 9 and is installed on the rotating motor 11, a first external thread 22 is arranged on the side face of the first rotating rod 10, a first internal thread hole 23 matched with the first external thread 22 of the first rotating rod 10 is formed in the active clamping block 5, and the first rotating rod 10 is arranged in the first internal thread hole 23 and is in threaded connection with the active clamping block 5 through matching of the first external thread 22 and the first internal thread hole 23.

As shown in fig. 4, a first side opening 18 and a first cavity 20 are arranged on the driving clamping block 5, the first side opening 18 is arranged on the side surface of the driving clamping block 5, the first cavity 20 is positioned above the first side opening 18, a first horizontal pressing plate 19 is slidably connected with the first side opening 18, a plurality of connecting rods 21 are fixed on the upper end surface of the first horizontal pressing plate 19, the connecting rods 21 penetrate through the top surface of the first side opening 18 and the bottom surface of the first cavity 20, are arranged in the first cavity 20 and are slidably connected with the first cavity 20, a sliding plate 16 is slidably connected with the first cavity 20, the connecting rods 21 and the sliding plate 16 are fixedly connected, a second through hole 15 is arranged on the top surface of the first cavity 20, a second rotating rod 12 is rotatably connected with the second through hole 15, one end of the second rotating rod 12 is positioned outside the driving clamping block 5 and is fixed with a knob 29 thereon, the other end of the second rotating rod 12 is arranged on the bottom surface of the first cavity 20 and is rotatably connected with the first cavity 20, and an external thread 14 is arranged on the side surface of the second rotating rod 12, the sliding plate 16 is provided with a second internal thread hole 17 matched with the second external thread 14 of the second rotating rod 12, and the second rotating rod 12 is arranged in the second internal thread hole 17 and is in threaded connection with the sliding plate 16 through the matching of the second external thread 14 and the second internal thread hole 17.

As shown in fig. 5 and 6, the inside of dead lever 2 is equipped with dead lever cavity 31, is equipped with two side openings 30 on the lateral wall of dead lever cavity 31, be fixed with on the inside wall of through-hole 33 with two side openings 30 assorted fixed blocks 34, fixed block 34 arrange in dead lever cavity 31 through two side openings 30 and with two side openings 30 sliding connection, fastening assembly is including arranging depression bar 32 in dead lever cavity 31 in, and depression bar 32's width is less than dead lever cavity 31's width, and the side of fixed block 34 is arranged in to depression bar 32, is equipped with inclined plane 36 on the terminal surface of dead lever cavity 31 one end, and inclined plane 36 is towards two side openings 30, and the one end of depression bar 32 is equipped with two inclined planes 35 with an inclined plane 36 matching, and inclined plane 36 is parallel with two inclined planes 35.

As shown in fig. 4 and 5, a second cavity 13 is arranged inside the active clamping block 5, the second cavity 13 is located above the first cavity 20, the second cavity 13 is located on the side surface of the cavity 31 of the fixing rod, the second rotating rod 12 is located in the second cavity 13 and is rotatably connected with the second cavity 13, a transmission assembly is installed in the second cavity 13, and the second rotating rod 12 is connected with the pressing rod 32 in the cavity 31 of the fixing rod through the transmission assembly.

As shown in fig. 4 and 5, the transmission assembly includes a turbine 28 and a transmission gear 27 installed in the second cavity 13, the second rotating rod 12 is disposed on one side of the turbine 28 and is engaged with the turbine 28 through the second external thread 14 thereon, the transmission gear 27 is disposed on the other side of the turbine 28 and is engaged with the turbine 28, a sliding push rod 24 is disposed in the second cavity 13, one end of the sliding push rod 24 penetrates through the side wall of the second cavity 13 and the end surface of the other end of the fixed rod cavity 31 and is disposed in the fixed rod cavity 31 and is slidably connected with the fixed rod cavity 31, one end of the sliding push rod 24 is disposed on the side surface of the other end of the pressing rod 32, a third external thread 25 is disposed on the outer side surface of the other end of the sliding push rod 24, a third internal thread 26 matched with the third external thread 25 of the sliding push rod 24 is disposed on the transmission gear 27, and the other end of the sliding push rod 24 is disposed in the third internal thread 26 and is threadedly connected with the transmission gear 27 through the cooperation of the third external thread 25 and the third internal thread 26.

As shown in fig. 6, a cavity three 43 and a side opening three 41 matched with the side opening one 18 are arranged on the driven clamping block 1, the cavity three 43 is located above the side opening three 41, a horizontal pressing plate two 40 is connected in the side opening three 41 in a sliding mode, a sliding rod 39 is fixed on the upper end face of the horizontal pressing plate two 40, the sliding rod 39 penetrates through the top face of the side opening three 41 and the bottom face of the cavity three 43 and is placed in the cavity three 43 and is connected with the cavity three 43 in a sliding mode, an iron block 38 is fixed on the sliding rod 39, the iron block 38 is placed in the cavity three 43 and is connected with the cavity three 43 in a sliding mode, a first return spring 44 is fixed between the top of the iron block 38 and the top face of the cavity three 43, an induction coil 37 and a battery block 42 are installed inside the driven clamping block 1, the iron block 38 is located on the inner side of the induction coil 37, a resistance strain gauge is installed on the fixing block 34, the battery block 42 is electrically connected with the resistance strain gauge, and the induction coil 37 are electrically connected with the resistance strain gauge.

As shown in fig. 7, the bottom surface of the third side opening 41 and the bottom surface of the first side opening 18 are placed on the same horizontal plane, the bottom surface of the third side opening 41 is lower than the height of the top surface of the serging platform 7, a plurality of first helical racks 46 are fixed in the third side opening 41, the first helical racks 46 are arranged on the bottom surface of the third side opening 41 in parallel, the inclined surface of the first helical rack 46 is positioned on one side far away from the serging platform 7 and inclined from bottom to top towards the serging platform 7, the lower end surface of the second horizontal pressing plate 40 is connected with a sliding plate 45 in a sliding manner, a second helical rack 47 matched with the first helical racks 46 is arranged on the bottom surface of the sliding plate 45, the inclined surface of the second helical rack 47 is positioned on one side close to the serging platform 7 and inclined from bottom to top towards the serging platform 7, and a second return spring 48 is installed between the second horizontal pressing plate 40 and the sliding plate 45.

The invention also provides a processing method of the bathrobe rough edge processing machine, which comprises the following steps:

firstly, moving one of the positioning clamping blocks on the track to one side close to the serging table, and then adjusting the relative position of the other positioning clamping block according to the length of the bathrobe to be serged;

placing two sides of the burr area of the bathrobe on the clamping surfaces of the two positioning clamping blocks respectively, and laying the initial serging end of the burr area of the bathrobe on the table top of a serging table;

step three, operating a clamping switch on the positioning clamping blocks to fix the burr area of the bathrobe, and synchronously fixing two sides of the burr area of the bathrobe by the two positioning clamping blocks through a linkage device, wherein the other positioning clamping block is synchronously fixed on the track relative to one positioning clamping block;

and step four, starting the serging power head and the clamping block moving device, and realizing moving serging of the serging power head to the rough edges of the bathrobe through synchronous motion of the two positioning clamping blocks on the track.

The working principle is as follows:

firstly, when positioning is carried out, the driving clamping block 5 is moved to one side close to the serging table 7, and then the position of the driven clamping block 1 on the fixing rod I2 is adjusted according to the length of the bathrobe to be serged.

And secondly, placing two sides of the burr area of the bathrobe on the bottom surfaces of the first side opening 18 and the third side opening 41 respectively, and flatly laying the initial locking end of the burr area of the bathrobe on the table surface of the locking table 7.

Thirdly, the knob 29 is rotated to drive the second rotating rod 12 to rotate, the sliding plate 16 in the first cavity 20 is driven to move downwards under the action of the second external thread 14 and the second internal thread hole 17, and the first horizontal pressing plate 19 in the first side opening 18 is driven to move downwards through the connecting rod 21 to press the bathrobe.

And fourthly, when the second rotating rod 12 rotates, the rotation of the second rotating rod 12 is converted into the sliding of the sliding push rod 24 in the fixed rod cavity 31 through the transmission of the turbine 28, the transmission gear 27, the third external thread 25 and the third internal thread hole 26, the press rod 32 in the fixed rod cavity 31 is pushed, and under the action of the first inclined surface 36 and the second inclined surface 35, the press rod 32 approaches to the fixed block 34 and extrudes the fixed block 34, so that the fixing of the driven clamping block 1 on the first fixed rod 2 is realized.

Fifthly, when the fixed block 34 on the driven clamping block 1 is under the pressure from the pressure rod 32, the resistance strain gauge in the fixed block deforms to a certain extent under the action of the pressure, at the moment, the resistance value of the resistance strain gauge is increased, so that the current flowing from the battery block 42 to the induction coil 37 is reduced, and the electromagnetic force on the iron block 38 is also reduced. The iron block 38 moves downwards under the action of gravity and the elastic force of the first return spring 44, and then the sliding rod 39 drives the second horizontal pressing plate 40 in the third side opening 41 to move downwards to press the bathrobe, so that the purpose of fixing the other side of the burr area of the bathrobe is achieved.

Sixthly, when the sliding plate 45 on the second horizontal pressing plate 40 moves towards the bottom surface of the third side opening 41 to press the other side of the burr area of the bathrobe, through the design of the first inclined rack 46 and the second inclined rack 47, the sliding plate 45 can deviate to a certain degree relative to the second horizontal pressing plate 40 and simultaneously pull the bathrobe outwards, and the fixation of the burr area of the bathrobe on the rail 6 is completed.

Seventhly, start serging unit head 4 and rotating electrical machines 11 simultaneously, drive dwang 10 in spout 9 through rotating electrical machines 11 and rotate, under the effect of external screw thread 22 and internal thread hole 23, and then drive initiative clamp splice 5 in spout 9 and slide, begin to move the serging to the deckle edge of bathrobe by serging unit head 4.

Claims (4)

1. The utility model provides a bathrobe deckle edge processor, characterized by includes frame (3), be fixed with track (6) and serging unit head (4) on frame (3), be equipped with initiative clamp splice (5) and driven clamp splice (1) on the up end of track (6), initiative clamp splice (5) and driven clamp splice (1) are arranged in on the same straight line and all with track (6) sliding connection, be fixed with dead lever (2) on initiative clamp splice (5), be equipped with on driven clamp splice (1) with dead lever (2) assorted through-hole (33), dead lever (2) are located in through-hole (33) and with driven clamp splice (1) sliding connection, be provided with fastening components between driven clamp splice (1) and dead lever (2), serging unit head (4) are located between initiative clamp splice (5) and driven clamp splice (1) and place in the top of the straight line that initiative clamp splice (5) and driven clamp splice (1) formed, be equipped with on track (6) with initiative clamp splice (5) assorted spout one (9) and with driven clamp splice (1) assorted spout two (8), spout one (9) and spout two (8) are located same straight line, install respectively in spout one (9) and spout two (8) and rather than sliding connection initiative clamp splice (5) and driven clamp splice (1), be fixed with serging platform (7) on track (6), serging platform (7) are arranged in between spout one (9) and spout two (8) and are located serging (4) under, be equipped with side opening one (18) and cavity unit head (20) on initiative clamp splice (5), side opening one (18) sets up on the side of initiative clamp splice (5), cavity unit head (20) is located the top of side opening one (18), side opening one (18) sliding connection has horizontal press plate one (19), the up end of horizontal press board (19) is fixed with a plurality of connecting rods (21), top surface that connecting rod (21) run through side opening (18) and the bottom surface of cavity (20) are arranged in cavity (20) and with cavity (20) sliding connection, cavity (20) sliding connection has slide (16), connecting rod (21) and slide (16) fixed connection, be equipped with through-hole two (15) on the top surface of cavity (20), through-hole two (15) internal rotation are connected with dwang two (12), the one end of dwang two (12) is located the outside of initiative clamp splice (5) and is fixed with knob (29) on it, the other end of dwang two (12) is installed on the bottom surface of cavity (20) and is rotated with cavity (20) and is connected, be equipped with external screw thread two (14) on the side of dwang two (12), be equipped with on dwang slide (16) with the external screw thread two (14) assorted internal thread with cavity two (12) internal thread Hole two (17), dwang two (12) are arranged in internal thread hole two (17) and through the cooperation and slide (16) threaded connection of external screw thread two (14) and internal thread hole two (17), the inside of dead lever one (2) is equipped with dead lever cavity (31), be equipped with side opening two (30) on the lateral wall of dead lever cavity (31), be fixed with on the inside wall of through-hole one (33) with side opening two (30) assorted fixed block (34), fixed block (34) are arranged in dead lever cavity (31) through side opening two (30) and with side opening two (30) sliding connection, fastening assembly is including arranging depression bar (32) in dead lever cavity (31), the width of depression bar (32) is less than the width of dead lever cavity (31), the side of fixed block (34) is arranged in depression bar (32), be equipped with inclined plane one (36) on the terminal surface of dead lever cavity (31) one end, inclined plane one (36) is towards side opening two (30), the one end of depression bar (32) is equipped with inclined plane two (35) of matcing with inclined plane one (36), inclined plane one (36) and inclined plane two (35) are parallel, initiative clamp splice (5) inside is equipped with cavity two (13), cavity two (13) are located the top of cavity one (20), cavity two (13) are located the side of dead lever cavity (31), dwang two (12) are located cavity two (13) and rotate with cavity two (13) and are connected, install drive assembly in cavity two (13), dwang two (12) are connected through depression bar (32) in drive assembly and dead lever cavity (31), drive assembly is including installing turbine (28) and drive gear (27) in cavity two (13), turbine (28) one side and through the external screw thread two (14) on it mesh with turbine (28) are arranged in dwang two (12), the other side of the turbine (28) is arranged in the transmission gear (27) and is meshed with the turbine (28), a sliding push rod (24) is arranged in the cavity II (13), one end of the sliding push rod (24) penetrates through the side wall of the cavity II (13) and the end face of the other end of the fixed rod cavity (31) and is arranged in the fixed rod cavity (31) and is in sliding connection with the fixed rod cavity (31), one end of the sliding push rod (24) is located on the side face of the other end of the pressure lever (32), an external thread III (25) is arranged on the outer side face of the other end of the sliding push rod (24), an internal thread hole III (26) matched with the external thread III (25) of the sliding push rod (24) is arranged on the transmission gear (27), the other end of the sliding push rod (24) is arranged in the internal thread hole III (26) and is in threaded connection with the transmission gear (27) through the matching of the external thread III (25) and the internal thread hole III (26), be equipped with cavity three (43) on driven clamp splice (1) and with side opening three (41) of one (18) assorted side opening, cavity three (43) are located the top of side opening three (41), sliding connection has horizontal press plate two (40) in side opening three (41), the up end of horizontal press plate two (40) is fixed with slide bar (39), slide bar (39) run through the top surface of side opening three (41) and the bottom surface of cavity three (43) arrange in cavity three (43) and with cavity three (43) sliding connection, be fixed with iron plate (38) on slide bar (39), iron plate (38) are arranged in cavity three (43) and with cavity three (43) sliding connection, be fixed with reset spring one (44) between the top of iron plate (38) and the top surface of cavity three (43), the internally mounted of driven clamp splice (1) has induction coil (37) and battery piece (42), iron plate (38) are located induction coil (37) inboard, install resistance foil gage on fixed block (34), battery piece (42) and resistance foil gage electricity are connected, resistance foil gage and induction coil (37) electricity are connected.

2. The bathrobe rough edge processing machine according to claim 1, characterized in that a first rotating rod (10) is rotatably connected with the first sliding groove (9), one end of the rotating rod I (10) is arranged on the inner side wall of one end of the sliding groove I (9), a rotating motor (11) corresponding to the rotating rod I (10) is fixed on the outer side wall of the other end of the sliding groove I (9), the other end of the rotating rod I (10) penetrates through the side wall of the other side of the sliding groove I (9) and is installed on a rotating motor (11), an external thread I (22) is arranged on the side surface of the rotating rod I (10), an internal thread hole I (23) matched with the external thread I (22) of the rotating rod I (10) is arranged on the active clamping block (5), the first rotating rod (10) is arranged in the first internal thread hole (23) and is in threaded connection with the driving clamping block (5) through the matching of the first external thread (22) and the first internal thread hole (23).

3. The bathrobe rough edge processing machine according to claim 1, characterized in that the bottom surface of the side opening III (41) and the bottom surface of the side opening I (18) are arranged on the same horizontal plane, the bottom surface of the side opening III (41) is lower than the table top of the serging table (7), a plurality of inclined racks I (46) are fixed in the side opening III (41), the inclined racks I (46) are arranged on the bottom surface of the side opening III (41) in parallel, the inclined surface of the inclined racks I (46) is positioned on the side far away from the serging table (7) and inclined from bottom to top towards the serging table (7), the lower end surface of the horizontal pressing plate II (40) is connected with a sliding plate (45) in a sliding manner, an inclined rack II (47) matched with the inclined racks I (46) is arranged on the bottom surface of the sliding plate (45), the inclined surface of the inclined rack II (47) is positioned on the side close to the serging table (7) and inclined from bottom to top towards the serging table (7), and a second return spring (48) is arranged between the second horizontal pressing plate (40) and the sliding plate (45).

4. A method of processing a bathrobe flash processor using a bathrobe flash processor according to claim 1, comprising the steps of:

firstly, moving one of the positioning clamping blocks on the track to one side close to the serging table, and then adjusting the relative position of the other positioning clamping block according to the length of the bathrobe to be serged;

placing two sides of the burr area of the bathrobe on the clamping surfaces of the two positioning clamping blocks respectively, and laying the initial serging end of the burr area of the bathrobe on the table top of a serging table;

step three, operating a clamping switch on the positioning clamping blocks to fix the burr area of the bathrobe, and synchronously fixing two sides of the burr area of the bathrobe by the two positioning clamping blocks through a linkage device, wherein the other positioning clamping block is synchronously fixed on the track relative to one positioning clamping block;

and step four, starting the serging power head and the clamping block moving device, and realizing moving serging of the serging power head to the rough edges of the bathrobe through synchronous motion of the two positioning clamping blocks on the track.

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