CN111748930B - High-speed intelligent ribbon embroidery equipment - Google Patents

Abstract

The invention discloses high-speed intelligent mesh belt embroidering equipment which comprises a rack, a servo driving system, a pair of circulating cloth feeding systems, a pair of tension adjusting systems and a cover plate, wherein the servo driving system is arranged at the upper end of the rack and is positioned at the right side of the rack; the pair of circulating cloth feeding systems are arranged at the upper end of the servo driving system and are positioned in the middle of the rack; the pair of tension adjusting systems are respectively arranged at the front side and the rear side of the rack, the tension adjusting systems are positioned below the servo driving system and the circulating cloth feeding system, and the tension adjusting systems are matched with the corresponding circulating cloth feeding systems; the apron lid is established on circulation work feed system, and the apron is fixed connection with the upper end of frame. The high-speed intelligent mesh belt embroidering equipment adopts the structure, so that the working efficiency of the high-speed intelligent mesh belt embroidering equipment is improved, and the application range of the high-speed intelligent mesh belt embroidering equipment is expanded.

Description

High-speed intelligent ribbon embroidery equipment

Technical Field

The invention relates to the technical field of embroidery equipment, in particular to high-speed intelligent ribbon embroidery equipment.

Background

The braid embroidery can embroider braids with various widths, and is suitable for embroidering on braids in various forms such as knitting braids, shuttle braids and the like.

The high accuracy embroidery can't be accomplished to current embroidery machine on the meshbelt, and along with economic quick development, people are also bigger and bigger to the demand of shoes clothes and case and bag, in order to satisfy market needs, the meshbelt embroidery equipment that an intelligence is high-efficient and application range is wide is urgently needed.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides high-speed intelligent mesh belt embroidering equipment, which solves the problem that an existing embroidering machine cannot embroider on mesh belts.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

a high-speed intelligent webbing embroidery device comprises:

a frame;

the servo driving system is arranged on the upper end of the rack and is positioned on the right side of the rack;

the pair of circulating cloth feeding systems are arranged on the upper end of the servo driving system and are positioned in the middle of the rack;

the pair of tension adjusting systems are respectively arranged on the front side and the rear side of the rack, are positioned below the servo driving system and the circulating cloth feeding system, and are matched with the corresponding circulating cloth feeding systems;

the cover plate is covered on the circulating cloth feeding system and is fixedly connected with the upper end of the rack.

Further, servo drive system includes the track connecting seat, the track connecting seat sets up on the upper end of frame, the right part of the inner chamber of track connecting seat is equipped with first step motor, first step motor is fixed on a motor connecting seat, just first step motor is connected with hold-in range and work feed shaft through first coupling, the epaxial synchronous pulley group that is equipped with of work feed, just synchronous pulley group passes through the hold-in range and is connected with offside tight pulley group transmission that rises.

Furthermore, a first guide rail seat and a second guide rail seat are arranged in the rail connecting seat, a first guide rail tackle is arranged on the first guide rail seat in a sliding fit mode, a second guide rail tackle is arranged on the second guide rail seat in a sliding fit mode, and the first guide rail tackle is connected with the second guide rail tackle through the rail connecting seat.

Furthermore, the circulating cloth feeding system is arranged on the track connecting seat and comprises a closed-loop stepping motor, the closed-loop stepping motor is arranged on the closed-loop stepping motor connecting seat on the track connecting seat, an output shaft of the closed-loop stepping motor is connected with a driving roller through an elastic locking block, the driving roller is connected with an adjustable roller and a driven roller in a matching mode, and the driving roller is connected with the first roller seat and the second roller seat through a pair of second shaft joints and a connecting shaft between the pair of second shaft joints.

Furthermore, the front end of the first roller seat is provided with an adjustable roller seat, and the front end of the adjustable roller seat is connected with an air cylinder through an air cylinder connecting block.

Still further, the tension adjustment system includes:

the tension adjusting front cover is arranged on the rack;

the supporting seat is arranged on the inner side of the tension adjusting front cover;

and the pair of ribbon disks are respectively arranged on two sides of the supporting seat.

Furthermore, motor bases are respectively arranged on two sides of the upper end face of the supporting base, a second stepping motor is arranged at the inner end of each motor base, a motor transmission shaft is connected to an output shaft of each second stepping motor, and the mesh belt disc sleeves the corresponding motor transmission shafts.

Furthermore, the inner end of the motor base is provided with a pair of optical couplers, and the pair of optical couplers are positioned above the second stepping motor.

Furthermore, the inner of motor cabinet is connected with the tension regulating block through the expansion regulating spindle, the tension regulating block is located the inboard of a pair of opto-coupler, just the upper end of tension regulating block is equipped with the light barrier.

Further, still include the main drive system, the main drive system sets up on the apron.

(III) advantageous effects

The invention has the beneficial effects that:

1. the invention has high efficiency, high embroidering speed and wide application range;

2. the invention is suitable for plain belts, twill belts, knitted belts and woven belts, and can be additionally provided with paillettes, laminations, string threads and the like to carry out various combined embroidery.

Drawings

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

Fig. 2 is a front view of the present invention.

Fig. 3 is a side view of the present invention.

Fig. 4 is a schematic perspective view of a high-speed handpiece according to the present invention.

Fig. 5 is a schematic perspective view of the photoelectric encoder of the present invention.

Fig. 6 is a schematic perspective view of an electromagnet thread hooking system according to the present invention.

Fig. 7 is a schematic perspective view of the color changing box of the present invention.

Fig. 8 is a schematic perspective view of the wire clamping seat of the present invention.

Fig. 9 is a schematic perspective view of the needle bar holder of the present invention.

Fig. 10 is an exploded view of the servo drive system of the present invention.

Fig. 11 is an exploded view of the circular feed system of the present invention.

Fig. 12 is an exploded view of the tensioning system of the present invention.

In the drawings: a frame 10, a servo driving system 20, a track connecting seat 21, a first stepping motor 22, a synchronous belt 23, a cloth feeding shaft 24, a synchronous belt wheel set 25, a tension wheel set 26, a circulating cloth feeding system 30, a closed-loop stepping motor 31, a driving roller 32, an adjustable roller 33, a driven roller 34, an air cylinder 35, a tension adjusting system 40, a tension adjusting front cover 41, a supporting seat 42, a webbing disc 43, a second stepping motor 44, an optical coupler 45, a tension adjusting block 46, a light blocking sheet 47, a cover plate 50, a motor connecting seat 60, a first shaft joint 70, a first guide rail seat 80, a second guide rail seat 90, a first guide rail pulley 100, a second guide rail pulley 110, a closed-loop stepping motor connecting seat 120, an elastic locking block 130, a second shaft 140, a connecting shaft 150, a first roller seat 160, a second roller seat 170, an adjustable roller seat 180, an air cylinder connecting block 190, a motor seat 200, a motor transmission shaft 210, a tension adjusting shaft 220, the device comprises a main transmission system 230, a cross beam 240, a wire frame large plate 250, a high-speed machine head 260, a photoelectric encoder 270, an electromagnet thread hooking system 280, a color changing box 290, a thread clamping seat 300, a needle bar frame 310 and a computer operating head 320.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present invention.

Referring to fig. 1 to 6, as shown in fig. 1, 2 and 3, the high-speed intelligent webbing embroidering apparatus includes a frame 10, a servo driving system 20, a pair of circulating feeding systems 30, a pair of tension adjusting systems 40 and a cover plate 50, where the frame 10 includes a top plate, a pair of side plates are disposed at a lower end of the top plate, a pair of self-lockable universal rollers are disposed at bottom ends of the side plates, so as to facilitate movement of the high-speed intelligent webbing embroidering apparatus, the servo driving system 20 is disposed at an upper end of the top plate, the servo driving system 20 is located at a right side of the top plate, the pair of circulating feeding systems 30 is disposed at an upper end of the servo driving system 20, the pair of circulating feeding systems 30 is located at a middle portion of the top plate, the pair of tension adjusting systems 40 is disposed at front and rear sides of the frame 10, respectively, and the tension adjusting systems 40 are located at front and rear ends of the servo driving system 20, The tension adjusting system 40 is matched with the corresponding circular cloth feeding system 30 below the circular cloth feeding system 30, the cover plate 50 covers the circular cloth feeding system 30, the cover plate 50 is fixedly connected with the upper end of the top plate, when the circular cloth feeding system 30 circularly feeds cloth, the servo driving system 20 drives the needle rod to move, even if the machine needle does up-and-down reciprocating motion, cloth needling is completed, lock stitches are formed, and patterns are formed, and the servo driving system 20 and the automatic circular cloth feeding system 30 are arranged in the high-speed intelligent woven tape embroidering device, so that the high-speed intelligent woven tape embroidering device really realizes non-stop embroidering of woven tapes.

In the high-speed intelligent woven tape embroidering equipment, the embroidering speed reaches 1000 revolutions per minute, and the equipment is suitable for weaving and embroidering woven tapes made of various materials with the width of 15 mm-60 mm.

As shown in fig. 1, 2 and 3, the high-speed intelligent webbing embroidery device further includes a main driving system 230, wherein the main driving system 230 is disposed on the cover plate 50, and the main driving system 230 is located at the left side of the cover plate 50.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9, a cross beam 240 is disposed on the inner side of the upper end of the cover plate 50, a wire rack large plate 250 is disposed on the upper end of the cross beam 240, a pair of high-speed machine heads 260 is disposed on the front end of the cross beam 240, a photoelectric encoder 270 is disposed on the right end of the high-speed machine heads 260, an electromagnet thread hooking system 280 is disposed on the left end of the high-speed machine heads 260, a color changing box 290 is disposed on the upper end of the high-speed machine heads 260, a thread clamping base 300 is disposed on the front end of the high-speed machine heads 260, and a needle bar rack 310 is disposed on the lower end of the thread clamping base 300.

In this embodiment, the upper end of the cover plate 50 is provided with a computer operating head 320, and the computer operating head 320 is positioned at the right front of the needle bar frame 310 on the right side.

In this embodiment, a motor trimming and a rotating shuttle box are further disposed in the cover plate 50, the motor trimming is connected to the rotating shuttle box, and the motor trimming is connected to the main transmission system 230.

As shown in fig. 10, the servo driving system 20 includes a track connection seat 21, the track connection seat 21 is disposed on the upper end of the frame 10, a first step motor 22 is disposed at the right portion of the inner cavity of the track connection seat 21, the first step motor 22 is fixed on a motor connection seat 60, the first step motor 22 is connected to a synchronous belt 23 and a cloth feeding shaft 24 through a first shaft joint 70, the cloth feeding shaft 24 is provided with a synchronous pulley set 25, and the synchronous pulley set 25 is in transmission connection with the tension pulley set 26 at the opposite side through the synchronous belt 23.

As shown in fig. 10, a first guide rail seat 80 and a second guide rail seat 90 are arranged in the rail connecting seat 21, a first guide rail pulley 100 is slidably fitted on the first guide rail seat 80, a second guide rail pulley 110 is slidably fitted on the second guide rail seat 90, and the first guide rail pulley 100 and the second guide rail pulley 110 are connected through the rail connecting seat 21.

As shown in fig. 11, the circular cloth feeding system 30 is disposed on the track connection seat 21, the circular cloth feeding system 30 includes a closed-loop stepping motor 31, the closed-loop stepping motor 31 is disposed on a closed-loop stepping motor connection seat 120 on the track connection seat 21, an output shaft of the closed-loop stepping motor 31 is connected with a driving roller 32 through an elastic locking block 130, the driving roller 32 is connected with an adjustable roller 33 and a driven roller 34 in a matching manner, and the driving roller 32 is connected with a first roller seat 160 and a second roller seat 170 through a pair of second shaft joints 140 and a connection shaft 150 between the pair of second shaft joints 140.

In this embodiment, the front end of the first roller base 160 is provided with an adjustable roller base 180, and the front end of the adjustable roller base 180 is connected to the air cylinder 35 through an air cylinder connecting block 190.

As shown in fig. 12, the tension adjusting system 40 includes a tension adjusting front cover 41, a support base 42, and a pair of take-up reels 43, the tension adjusting front cover 41 is disposed on the frame 10, the support base 42 is disposed inside the tension adjusting front cover 41, and the pair of take-up reels 43 are respectively mounted on both sides of the support base 42.

As shown in fig. 12, motor bases 200 are respectively disposed on two sides of the upper end surface of the support base 42, the inner end of the motor base 200 is provided with a second stepping motor 44, an output shaft of the second stepping motor 44 is connected with a motor transmission shaft 210, and the ribbon disk 43 is sleeved on the corresponding motor transmission shaft 210.

As shown in fig. 12, a pair of optical couplers 45 is disposed at an inner end of the motor base 200, and the pair of optical couplers 45 is located above the second stepping motor 44.

In this embodiment, the inner end of the motor base 200 is connected to a tension adjusting block 46 through a tension adjusting shaft 220, the tension adjusting block 46 is located inside the pair of optical couplers 45, and a light blocking sheet 47 is arranged at the upper end of the tension adjusting block 46.

In the above structure, firstly, the cloth feeding shaft 24 is driven to rotate by the first stepping motor 22 and the synchronous belt 23, the needle bar cam is driven, the needle bar is driven to reciprocate up and down by the connecting rod driver, the embroidery braid is completed by the machine needle arranged on the needle bar, then the driving roller 32, the adjustable roller 33 and the driven roller 34 are driven to rotate by the closed loop stepping motor 31, the shuttle shaft bevel gear, the shuttle shaft and the rotary shuttle are driven to rotate, the thread hooking is completed, the upper thread winds around the shuttle peg to complete the interweaving of the bottom upper thread, and finally, the electromagnet thread hooking system 280 is responsible for tightening the surface to form the lock stitch.

It should be noted that the described embodiments of the invention are only preferred ways of implementing the invention, and that all obvious modifications, which are within the scope of the invention, are all included in the present general inventive concept.

Claims (3)

1. The utility model provides a high-speed intelligent meshbelt embroidery equipment which characterized in that includes:

a frame (10);

the servo driving system (20), the servo driving system (20) is arranged on the upper end of the rack (10), and the servo driving system (20) is positioned on the right side of the rack (10);

the servo driving system (20) comprises a track connecting seat (21), the track connecting seat (21) is arranged at the upper end of the rack (10), a first stepping motor (22) is arranged at the right part of an inner cavity of the track connecting seat (21), the first stepping motor (22) is fixed on a motor connecting seat (60), the first stepping motor (22) is connected with a synchronous belt (23) and a cloth feeding shaft (24) through a first shaft joint (70), the cloth feeding shaft (24) is provided with a synchronous belt pulley set (25), and the synchronous belt pulley set (25) is in transmission connection with an opposite tensioning pulley set (26) through the synchronous belt (23);

the pair of circulating cloth feeding systems (30) are arranged at the upper end of the servo driving system (20), the pair of circulating cloth feeding systems (30) are located in the middle of the rack (10), the circulating cloth feeding systems (30) are arranged on the track connecting seat (21), each circulating cloth feeding system (30) comprises a closed-loop stepping motor (31), the closed-loop stepping motor (31) is arranged on a closed-loop stepping motor connecting seat (120) located on the track connecting seat (21), an output shaft of the closed-loop stepping motor (31) is connected with a driving roller (32) through an elastic locking block (130), the driving roller (32) is connected with an adjustable roller (33) and a driven roller (34) in a matched mode, and the driving roller (32) is connected with a first roller seat (160) through a pair of second shaft joints (140) and a connecting shaft (150) located between the pair of second shaft joints (140), The second roller seats (170) are connected;

the pair of tension adjusting systems (40) are respectively arranged on the front side and the rear side of the rack (10), the tension adjusting systems (40) are positioned below the servo driving system (20) and the circulating cloth feeding system (30), and the tension adjusting systems (40) are matched with the corresponding circulating cloth feeding system (30);

the cover plate (50) is covered on the circulating cloth feeding system (30), and the cover plate (50) is fixedly connected with the upper end of the rack (10);

a first guide rail seat (80) and a second guide rail seat (90) are arranged in the track connecting seat (21), a first guide rail pulley (100) is slidably matched on the first guide rail seat (80), a second guide rail pulley (110) is slidably matched on the second guide rail seat (90), and the first guide rail pulley (100) is connected with the second guide rail pulley (110) through the track connecting seat (21);

the front end of the first roller seat (160) is provided with an adjustable roller seat (180), and the front end of the adjustable roller seat (180) is connected with an air cylinder (35) through an air cylinder connecting block (190);

the tension adjustment system (40) comprises: a tension adjusting front cover (41), the tension adjusting front cover (41) being disposed on the frame (10);

a support seat (42), the support seat (42) being provided inside the tension adjusting front cover (41);

a pair of tape reels (43), the pair of tape reels (43) are respectively installed on two sides of the supporting seat (42);

the two sides of the upper end face of the supporting seat (42) are respectively provided with a motor base (200), the inner end of the motor base (200) is provided with a second stepping motor (44), an output shaft of the second stepping motor (44) is connected with a motor transmission shaft (210), and the weaving disc (43) is sleeved on the corresponding motor transmission shaft (210);

the inner of motor cabinet (200) is connected with tension regulating block (46) through opening upright regulating spindle (220), tension regulating block (46) are located the inboard of a pair of opto-coupler (45), just the upper end of tension regulating block (46) is equipped with light blocking piece (47).

2. The high-speed intelligent webbing embroidery device according to claim 1, wherein a pair of optocouplers (45) is arranged at the inner end of the motor base (200), and the pair of optocouplers (45) is located above the second stepping motor (44).

3. The high-speed intelligent webbing embroidery device according to claim 1, further comprising a main drive system (230), wherein the main drive system (230) is provided on the cover plate (50).

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