CN201377036Y - Coiling embroidery feeding device - Google Patents

Abstract

The utility model discloses a coiling embroidery feeding device with high conveying speed, high conveying precision and convenient operation. The coiling embroidery feeding device comprises a rope conveying mechanism, a driving mechanism with a stepping motor and a rope guiding mechanism, wherein the rope conveying mechanism comprises a rope conveying wheel, the rope conveying wheel comprises a rope conveying wheel body, embroidering needle holes are formed in the middle of the rope conveying wheel body, a plurality of rope conveying holes are formed on the periphery of the embroidering needle holes, a plurality of rope guiding holes with the inside diameter matched with the inside diameter of the rope conveying holes are formed on the periphery of the rope conveying wheel body, and synchronous wheel teeth are also formed on the periphery of the rope conveying wheel. The coiling embroidery feeding device is suitable for rope conveying of a computer coiling embroidery machine.

Description

Twine and embroider pay-off

Technical field

The utility model relates to a kind of winding embroidering computer embroidery machine, relates in particular to a kind of winding that realizes that the high speed rope band is carried and embroiders pay-off.

Background technology

Twining embroidering computer embroidery machine is a kind of embroidered rope that is used for, the equipment of band, normally on the basis of common plain embroidery machine, embroider defeated rope device by setting up to twine, make it have the embroidery of winding embroidery function, it is an independently head that defeated rope device is embroidered in common winding, comprise independently embroider mechanism and the defeated mechanism that restricts, mixing in the type with plain embroidery etc., need to install at interval with the plain embroidery head, cause installing space bigger, and generally need and the shared cover transmission main shaft of plain embroidery head, the reason of installing owing to power transmission shaft, need do bigger transformation to common plain embroidery handpiece structure,, can not twine original the computerized emboridering machine with plain embroidery function and embroider function and set up so cause the versatility of parts to reduce.And by " mechanism is embroidered in dribbling " utility model patent of Zhejiang Guanjun Electromechanical Technology Co., Ltd. of our unit application, Granted publication number " CN 201186993Y ", this patent disclosure a kind of need the defeated rope mechanism that can realize twining the embroidery function is installed in plain embroidery head one side, this mechanism mainly comprises transmission device and pendulum rope device, transmission device comprises drive motors, two main driving wheels of size on the drive motors output shaft, defeated rope device is mainly by defeated rope sheave, the pendulum rope servicing unit that matches with defeated rope sheave is formed, defeated rope sheave is connected with big main driving wheel, be provided with the embroidery pin hole in the middle of the defeated rope sheave, be provided with several rope throughs around embroidering pin hole, pendulum rope servicing unit comprises two wobble wheels, wobble wheel is connected with little main driving wheel, cross-over connection swinging mounting on the wobble wheel, the swinging mounting center line departs from two wobble wheel lines of centres, the swinging mounting front end is provided with pilot hole, has the versatility height, easy for installation, characteristics such as province take up room.But, defeated rope sheave need cause failing rope speed and be difficult to raising, thereby the embroidery speed of embroidering be twined in influence by pendulum rope servicing unit cooperating because failing when restricting.Because the angle of revolution of defeated rope sheave will influence the needlework location of rope band, owing to lack the mechanism for monitoring of monitoring driving electric machine operation state, the precision that causes embroidering is difficult to guarantee simultaneously.In addition, owing in this mechanism first pin fixed mechanism is not set, cause the fixing difficulty of first needlework rope, troublesome poeration.

The utility model content

The technical problems to be solved in the utility model provides the winding that a kind of transporting velocity is fast, delivery precision is high, easy to operate and embroiders pay-off.

In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:

The utility model comprises the defeated mechanism that restricts, has the driving mechanism of stepper motor, make the guiding mechanism of rope band guiding, described defeated rope mechanism comprises defeated rope sheave, described defeated rope sheave comprises defeated rope sheave body, be provided with the embroidery pin hole in the middle of the described defeated rope sheave body, described embroidery pin hole periphery is provided with several defeated rope holes, and described defeated rope sheave body periphery is provided with several internal diameter sizes and defeated rope suitable conductor rope hole, hole, and described defeated rope sheave periphery also is provided with the synchronous gear teeth.

As preferably, described synchronous gear teeth below periphery is provided with bearing, and described bearing periphery and inner hole of bearing seat closely cooperate.

As preferably, the utility model also comprises the first pin fixed mechanism that can make first needlework rope fixed-site.

As preferably, described first pin fixed mechanism is arranged at the extended end of bearing block, is a fixing hole, and its aperture size is suitable with the outside dimension of embroidering rope.

As preferably, described first pin fixed mechanism is arranged at the extended end of bearing block, by the half-edge hole on the bearing block edge, is located at the half-edge hole periphery, and is made up of the spring pressuring plate that holding screw is fixed on the bearing block edge.

As preferably, driving mechanism also comprise main pulley on the stepper motor output shaft, be connected with main pulley from belt wheel, with from the coaxial same shaft pulley of belt wheel, describedly be connected with the synchronous gear teeth on the defeated rope sheave by belt with shaft pulley.

As preferably, the utility model also comprises the mechanism for monitoring of monitoring driving mechanism duty, described mechanism for monitoring comprises coding disk that rotates synchronously with stepper motor and the light lotus root assembly that is provided with the stepper motor relative fixed, radially be provided with the crack zone that is used for printing opacity on the described coding disk, described smooth lotus root assembly is connected with computerized control system.

As preferably, described mechanism for monitoring is positioned at stepper motor output axle head.

As preferably, described mechanism for monitoring is positioned at the stepper motor tail end, and described coding disk periphery is provided with protective cover.

The utility model compared with prior art has following obvious advantage and beneficial effect:

1, transporting velocity is fast.Because the utility model not only adopts the independently defeated mechanism that restricts, make twine the embroidery art when doing and the computerized emboridering machine spindle unconnected, and omitted pendulum rope servicing unit, only need to make defeated rope sheave revolution can realize carrying, thereby improved defeated rope speed by stepper motor.

2, delivery precision height.Because the utility model has been set up mechanism for monitoring on drive motors, make the angle of revolution of stepper motor precisely controlled, thereby can adjust defeated rope sheave angle of revolution, make the rope band transfer position accurate.

3, easy to operate.Because the utility model has been set up first pin fixed mechanism, makes fixedly convenient fixing of first needlework rope, thereby realize embroidery smoothly.

Description of drawings

Fig. 1 is the structural representation of utility model;

Fig. 2 is the structure for amplifying schematic diagram of defeated rope sheave (tape spool bearing) among Fig. 1;

Fig. 3 is the structure for amplifying schematic diagram of another kind of defeated rope sheave (tape spool bearing) among Fig. 1;

Fig. 4 is the structure for amplifying schematic diagram of stepper motor among Fig. 1 (band coding disk);

Fig. 5 is a coding disk structure for amplifying schematic diagram among Fig. 4;

Fig. 6 is the structure for amplifying schematic diagram of another kind of stepper motor among Fig. 1 (band coding disk).

The specific embodiment

Below in conjunction with the drawings and the specific embodiments the utility model is described in further detail:

As shown in Figure 1: the utility model comprises the mechanism for monitoring 5 of the defeated mechanism 1 that restricts that has defeated rope sheave 101, the driving mechanism 2 that has stepper motor 102, the guiding mechanism 3 that makes the rope band guiding, monitoring stepper motor 102 duties.

As shown in Figure 2: defeated rope sheave 101 comprises defeated rope sheave body 51, be provided with in the middle of the defeated rope sheave body 51 and embroider pin hole 52, embroider pin hole 52 peripheries and be provided with a plurality of defeated ropes hole 53, defeated rope sheave body 51 peripheries are provided with the suitable conductor rope hole 54 in a plurality of internal diameter sizes and defeated rope hole 53, the internal diameter size in defeated rope hole 53 and the embroidery rope outside dimension of required conveying are suitable, defeated rope sheave body 51 peripheries also are provided with the synchronous gear teeth 55, the gear teeth 55 below peripheries are provided with bearing synchronously, bearing periphery and bearing block 56 endoporus closely cooperate, bearing block 56 has prolongation, prolongation one end of bearing block 56 is provided with fixing hole 57, its aperture size is suitable with the outside dimension of embroidering rope, this fixing hole 57 promptly headed by the pin fixed mechanism.Certain first pin fixed mechanism also can be as shown in Figure 3 structure, promptly first pin fixed mechanism is located at half-edge hole 60 peripheries by the half-edge hole 60 on bearing block 56 edges, and is made up of the spring pressuring plate 80 that holding screw 81 is fixed on bearing block 56 edges.Certainly also can adopt other version, as long as with finishing that first needlework rope fixedly is beneficial to embroider, all in the protection domain of this patent.

The utility model is when work, to embroider the rope predetermined fixed between defeated rope hole 53 and fixing hole 57, can down penetrate defeated rope hole 53 from conductor rope hole 54 with embroidering rope, by defeated rope sheave body 51 bottom surfaces, put on from fixing hole 57, when defeated rope sheave body 51 turns round with respect to bearing block 55, embroidery rope between defeated rope hole 53 and the fixing hole 57 is swing thereupon also, can stride thorn when making the embroidery pin descending and embroider on the rope, it is fixing to embroider rope, thereby finishes first acupuncture embroidery.Simultaneously, also can be fixed by spring pressuring plate 80 embroidering the rope predetermined fixed between defeated rope hole 53 and half-edge hole 60.

As shown in Figure 1: driving mechanism 2 also comprise main pulley 103 on stepper motor 102 output shafts, be connected with main pulley 103 from belt wheel 104, with from the coaxial same shaft pulley 105 of belt wheel 104, be connected with the synchronous gear teeth 55 on the defeated rope sheave 101 by belt with shaft pulley 105.

As Fig. 4 and shown in Figure 5: the utility model also comprises the mechanism for monitoring 5 of monitoring stepper motor 102 duties, mechanism for monitoring 5 is positioned at stepper motor 102 output axle heads, mechanism for monitoring 5 comprises coding disk 70 that rotates synchronously with stepper motor 102 and the light lotus root assembly 71 that is provided with stepper motor 102 relative fixed, radially be provided with the crack zone 72 that is used for printing opacity on the coding disk 70, light lotus root assembly 71 is connected with computerized control system.When the stepper motor output shaft by belt, that synchronously band drives the amplitude that defeated rope sheave swings is excessive, the angle of dial rotation is also with excessive, by light lotus root assembly 71 fixed positions of adjusting in advance, can be when amplitude of fluctuation be excessive, make light lotus root assembly 71 sense the crack zone 72 that is used for printing opacity that rotating disk is disposed radially, then light lotus root assembly 71 sends the excessive monitor signal of stepper motor 102 output shaft rotational angles to external circuits, be beneficial to external control circuit and make corresponding adjustment, thereby guarantee the precision of embroidering.

As shown in Figure 6: mechanism for monitoring 5 also can be positioned at stepper motor 102 tail ends, helps embroidering rope according to different size like this and selects to change different coding disks 70; Simultaneously also be provided with protective cover 75, can avoid dust, the end of a thread to fall on the mechanism for monitoring like this, influence monitoring accuracy, can effectively improve service life simultaneously in coding disk 70 peripheries.

Claims (9)

1, pay-off is embroidered in a kind of winding, comprise the driving mechanism of failing rope mechanism, having stepper motor, make the guiding mechanism of rope band guiding, the hoisting mechanism that the defeated mechanism that restricts is moved up and down, it is characterized in that described defeated rope mechanism comprises defeated rope sheave, described defeated rope sheave comprises defeated rope sheave body, be provided with the embroidery pin hole in the middle of the described defeated rope sheave body, described embroidery pin hole periphery is provided with several defeated rope holes, described defeated rope sheave body periphery is provided with several internal diameter sizes and defeated rope suitable conductor rope hole, hole, and described defeated rope sheave periphery also is provided with the synchronous gear teeth.

2, pay-off is embroidered in winding according to claim 1, it is characterized in that described synchronous gear teeth below periphery is provided with bearing, and described bearing periphery and inner hole of bearing seat closely cooperate.

3, pay-off is embroidered in winding according to claim 2, it is characterized in that also comprising the first pin fixed mechanism that can make first needlework rope fixed-site.

4, pay-off is embroidered in winding according to claim 3, it is characterized in that described first pin fixed mechanism is arranged at the extended end of bearing block, is a fixing hole, and its aperture size is suitable with the outside dimension of embroidering rope.

5, pay-off is embroidered in winding according to claim 3, it is characterized in that described first pin fixed mechanism is arranged at the extended end of bearing block, by the half-edge hole on the bearing block edge, be located at the half-edge hole periphery, and form by the spring pressuring plate that holding screw is fixed on the bearing block edge.

6, pay-off is embroidered in winding according to claim 1, it is characterized in that driving mechanism also comprise main pulley on the stepper motor output shaft, be connected with main pulley from belt wheel, with from the coaxial same shaft pulley of belt wheel, describedly be connected with the synchronous gear teeth on the defeated rope sheave by belt with shaft pulley.

7, pay-off is embroidered in each described winding according to claim 1 to 6, it is characterized in that also comprising the mechanism for monitoring of monitoring driving mechanism duty, described mechanism for monitoring comprises coding disk that rotates synchronously with stepper motor and the light lotus root assembly that is provided with the stepper motor relative fixed, radially be provided with the crack zone that is used for printing opacity on the described coding disk, described smooth lotus root assembly is connected with computerized control system.

8, pay-off is embroidered in winding according to claim 7, it is characterized in that described mechanism for monitoring is positioned at stepper motor output axle head.

9, pay-off is embroidered in winding according to claim 8, it is characterized in that described mechanism for monitoring is positioned at the stepper motor rear end, and described coding disk periphery is provided with protective cover.

Images