CN105063915A - Eyelet function individually-driving method based on embroidery machine head - Google Patents

Abstract

The invention discloses an eyelet function individually-driving method based on embroidery machine head. The method comprises the following steps: step one, removing the original color-changing box device on the embroidery machine head, or removing the color-changing function related with the eyelet part of the original color-changing box device on the embroidery machine head; step two, through the main shaft of the embroidery machine head, driving a needle rod to move up and down through the driving system of the needle rod by the main shaft; step three, arranging an individual eyelet motor, and driving an eyelet knife to move up and down through the driving system of the eyelet knife by the eyelet motor. Although the color-changing box is canceled, the embroidery machine still has dual functions of eyelet and embroidery, the functions can be switched without changing the color-changing box device, the goals of eyelet and embroidery can be both achieved, and the eyelet function can be driven individually.

Description

Based on the carving hole functional independence driving method of machine head of embroidery machine

Technical field

The present invention relates to a kind of machine head of embroidery machine, specifically a kind of carving hole functional independence driving method based on machine head of embroidery machine.

Background technology

At present for embroidery machine industry, the lifting required along with properties of product and cloth aesthetics, same cloth realizes carving hole and embroidery becomes more and more frequent.Existing its implementation procedure for these two kinds of functions of machine head of embroidery machine simultaneously possessing carving hole function and embroidery function, be generally need to carry out switching (major name is colour changing) namely carry out embroider and carve hole function and carry out switching also referred to as colour changing, be the switching (colour changing) between shank and carving hole knife bar specific to component change.Here trace it to its cause be the namely carving hole function that causes of main shaft unified driving and embroidery function by main shaft drives, use color changing box device must be needed to switch.Existence due to above-mentioned technology reality result in machine head of embroidery machine and completes carving hole and frequently switching in function course of embroidering, and the production efficiency that not only loss is a large amount of, and the service life greatly reducing equipment, add fault rate.How to realize a kind of carving hole functional independence driving method based on machine head of embroidery machine is the object that those skilled in the art study always.

Summary of the invention

The invention provides that a kind of production efficiency is high, the carving hole functional independence driving method based on machine head of embroidery machine of long service life, dependable performance.

Based on a carving hole functional independence driving method for machine head of embroidery machine, comprise the steps:

One, cancel original color changing box device on machine head of embroidery machine or to cancel on machine head of embroidery machine on original color changing box device about the colour changing function of carving bore portion; For on color changing box device original on the machine head of embroidery machine that disappears about the understanding of the colour changing function of carving bore portion be, about the colour changing of carving bore portion, switching construction on existing color changing box device, all can retain or all cancel or partial cancellation, should belong within method for designing of the present invention for all retaining it otherwise using, or this reservation does not have other special use yet.

Two, by the main shaft on machine head of embroidery machine, moved up and down by the drive systems shank of main shaft by shank;

Three, independently carving hole motor is set, carves hole cutter by carving hole motor by the drive systems of carving hole cutter and move up and down;

There is not ordinal relation successively between above-mentioned steps two, three, for the drive system of shank and the drive system of carving hole cutter according to the existing knowledge of those skilled in the art, adopt existing common drive system to realize.This kind of method does not lack the necessary technology structure of technical solution problem, its technical characteristics is the colour changing part canceled original color changing box device on machine head of embroidery machine or to cancel on machine head of embroidery machine about carving hole and embroidery function on original color changing box device, for the understanding of original color changing box device or restriction based on any color changing box device on existing embroidery machine.Also just switching is there is not owing to eliminating color changing box device, and in method, cancel the handoff functionality of color changing box, also be just step 2, three possibilities providing realization, although most have a mind less than technique effect be eliminate color changing box function, but still possess carving hole and embroidery dual-use function, certainly still can switch, just do not need to be switched by color changing box device, also above-mentioned technical purpose can be reached, this is one of topmost necessary technology method of this patent, not that prior art can be pointed out or expect completely, step 3 just achieves carving hole functional independence and drives.

The independently carving hole motor of step 3, can independent operating under the main shaft stop state on the machine head of embroidery machine of step 2.This kind of method greatly reduces the energy consumption of main shaft, selectively can carry out shutdown operation in the process of carving hole.Its main shaft of existing machine head of embroidery machine is down cannot realize shutdown work completely in working order, and this patent possesses the carving hole ability under stopped status.

In step 2, the drive system of shank is a kind of crosspointer bar drive system, and described crosspointer bar drive system is by the main shaft drives cam mechanism on machine head of embroidery machine, and cam mechanism drives two shanks with upper motion at present by link assembly simultaneously.Crosspointer bar drive system substantially increases the production efficiency of embroidery machine, achieves high speed performance.

Three hole connecting rods of three connecting holes are comprised as the link assembly described in a kind of preferred structure, wherein the first connecting hole connects fastening screw, second connecting hole connects cam mechanism, 3rd connecting hole socket connection pin, connecting pin two ends are connected to shank, namely three hole connecting rods are connected with two shanks, realize the interlock effect of crosspointer bar.

Described crosspointer bar drive system coordinates two take-up structure; Described two thread take-up lever structures comprise two take-up tooth, and two take-up tooth both sides are provided with corresponding thread take-up tension lever, are provided with the tension force holding device be installed on machine head of embroidery machine on rear side of two take-up tooth; Described tension force holding device comprises the upward pressure block and downforce block that coordinate two take-up tooth respectively up and down, keeps embroidering the due tension force of line.

The drive system of carving hole cutter in described step 3 comprises carving motor-driven carving hole, hole driving shaft, carving hole driving shaft is installed carving hole rocking arm, and carving hole rocking arm connects carving hole cutter knife bar by lateral connection axle.

Two shank sides of described crosspointer bar drive system are equipped with a carving root hole cutter knife bar, and two carving root hole cutter knife bars realize two carving holes ability under the common driving of connecting axle, increase work efficiency further.

Based on the carving hole functional independence driving method of machine head of embroidery machine, comprise the steps four: in step 2, the drive system of shank synchronously drives presser feet; Described presser feet has precompressed ability.Presser feet precompressed ability moves to precompressed position by connecting presser feet lifting motor control presser feet, and then presser feet cooperation realizes final presser feet with the presser feet cam of machine head of embroidery machine spindle motor linkage rotation.The traveled distance that presser feet precompressed substantially reduces presser feet improves operating efficiency.Presser feet is divided into left and right two panels, and the syringe needle respectively on a corresponding shank, realizes two presser feet ability.

A kind of more detailed carving hole functional independence drive unit based on machine head of embroidery machine is provided in order to realize said method this patent, comprise the machine head of embroidery machine being provided with carving aperture apparatus and embroidering device, described carving aperture apparatus comprises the carving hole cutter knife bar and cutter head that move up and down, described embroidering device comprises the shank and syringe needle that move up and down, described carving hole cutter knife bar and shank do not need each other to switch, by separate drive systems in the process of moving up and down.

Drive system as the carving aperture apparatus described in a kind of specific embodiment comprises independently carves hole motor, and connects the carving hole cutter knife bar transmission system of carving hole motor, and transmission system drives carving hole cutter knife bar moves up and down; Above-mentionedly independently carve hole motor it is independently relative to the spindle motor on machine head of embroidery machine.Here any common drive system that those skilled in the art can realize according to existing knowledge is construed as carving hole cutter knife bar transmission system.Its difference maximum relative to the carving aperture apparatus on existing machine head of embroidery machine of drive system of this kind of carving aperture apparatus is, existing carving aperture apparatus does not carve hole driven by motor does not have this concept of transmission system more, but carry out after being switched by color changing box by main shaft moving up and down.Independently carve the multiple carving holes cutter on its carving hole driving shaft unified driving embroidery machine connected of hole motor for the present invention, the homogeneity realizing equipment is equal to main shaft drives shank function.

Described carving hole cutter knife bar transmission system comprises the carving hole drive pulley connecting carving hole motor, and carving drive pulley center, hole is connected with carving hole driving shaft, carving hole driving shaft is provided with carving hole rocking arm, and carving hole rocking arm connects carving hole cutter knife bar by lateral connection axle.This kind of transmission system connects carving hole cutter knife bar by carving hole rocker structure by lateral connection axle, and carving hole cutter knife bar is here that one or two are above certainly, reaches stability and homogeneity that carving hole cutter knife bar and cutter head drive.

The drive system of described embroidering device comprises head spindle motor, and connects the shank transmission system of head spindle motor, and shank transmission system drives shank and syringe needle move up and down.Here any common drive system that those skilled in the art can realize according to existing knowledge is construed as shank transmission system.Its difference maximum relative to the embroidering device on existing machine head of embroidery machine of the drive system of this kind of embroidering device is, existing embroidering device carries out after must being switched by color changing box by main shaft moving up and down.And the drive system of embroidering device of the present invention has abandoned color changing box device completely, directly driven by head spindle, greatly reduced equipment cost, improve operating efficiency.

Described shank transmission system comprises the driven pulley connecting head spindle motor, and driven pulley center is connected with main shaft, and main shaft is provided with cam mechanism, and cam mechanism drives shank by link assembly.More existing cam gear can be adopted to realize for cam mechanism, can certainly be more advanced cam mechanism.Realize shank by cam mechanism to move up and down, mechanical structure ensure that the accuracy that shank runs.

Described link assembly comprises the three hole connecting rods being provided with three connecting holes, wherein the first connecting hole connects fastening screw, and the second connecting hole connects cam mechanism, the 3rd connecting hole socket connection pin, connecting pin two ends are connected to shank, and namely three hole connecting rods are connected with two shanks.This kind of link assembly connects two shanks by three hole bar linkage structures by connecting pin, achieves the linkage structure of crosspointer bar, substantially increases production efficiency and equipment precision.

Switching device is provided with as between three hole connecting rods described in optimization technique structure and shank, switching device comprises driver, respective drivers is provided with jump electromagnet, driver sleeve is connected on shank driving shaft, driver one side connects three hole connecting rods, another side connecting needle bar, realizes mending and embroiders and every camera function, certainly also achieve the annexation between three hole connecting rods and shank.

The drive system of described embroidering device synchronously drives presser feet drive unit; Described presser feet drive unit comprises: presser feet lifting motor, and the presser feet prepressing device that presser feet lifting motor drives, and presser feet prepressing device coordinates the presser feet cam rotated with head spindle motor linkage.Presser feet prepressing device is a kind of device presser feet being run to distance cloth certain distance, and distance is here generally best between 2 to 6 millimeters, can certainly surpass and go beyond the scope.The traveled distance that presser feet prepressing device substantially reduces presser feet improves operating efficiency, and presser feet prepressing device coordinates the presser feet cam rotated with head spindle motor linkage finally to realize presser feet function, and the shank of this presser feet function and main shaft drives and syringe needle are the service behaviours of the raising presser feet of high level of synchronization.

Described presser feet prepressing device comprises the presser feet driving shaft connecting presser feet lifting motor, and presser feet driving shaft connects presser feet link by presser feet connecting rod, presser feet link is respectively equipped with presser feet asessory shaft and the presser feet axis of guide, is provided with presser feet bottom presser feet asessory shaft; Is provided with presser feet spring in the middle of described presser feet link, is provided with presser feet and be elevated drive block between presser feet spring and presser feet link, presser feet is elevated drive block and is connected presser feet cam.This kind of presser feet prepressing device achieves the function of the precompressed of presser feet independence and synchronous spindle presser.

Described presser feet is divided into left and right two panels, syringe needle respectively on a corresponding shank, for left and right two chip architecture of presser feet, it is equivalent to, and a presser feet controls, the needle head structure coordinated on two shanks, improve the planarization of cloth between two syringe needles, overcoming traditional presser feet can only the technology drawback of smooth limited area of cloth for single syringe needle.

Three described hole connecting rods are connected with on two shanks, and correspondence is provided with two thread take-up lever structures of cooperation; Described two thread take-up lever structures comprise two take-up tooth, and two take-up tooth both sides are provided with corresponding thread take-up tension lever, are provided with the tension force holding device be installed on machine head of embroidery machine on rear side of two take-up tooth; Described tension force holding device comprises the upward pressure block and downforce block that coordinate two take-up tooth respectively up and down.This kind of two thread take-up lever structure is provided with corresponding thread take-up tension lever by two take-up tooth both sides, realizes the technical purpose of once output control two thread take-up tension levers, reaches the high level of synchronization matching property of itself and two shanks and syringe needle.

The above-mentioned drive system of explanation shank about some titles and the drive system of embroidering device are a kind of incidence relations of similar noun, mutually do not conflict, also having is exactly the incidence relations that the drive system of carving hole cutter and the drive system of carving aperture apparatus are a kind of similar noun, does not mutually conflict.

The present invention by cancelling the handoff functionality of color changing box in method, adopt the main shaft on machine head of embroidery machine, moved up and down by the drive systems shank of main shaft by shank, arrange and independently carve hole motor, carve hole cutter by carving hole motor by the drive systems of carving hole cutter to move up and down, achieve carving hole functional independence and drive.Although the present invention eliminates color changing box function, still possess carving hole and embroidery dual-use function, certainly still can switch, just not need to be switched by color changing box device, also can reach carving hole and embroidery two kinds of technical purposes.

Accompanying drawing explanation

Be illustrated in figure 1 the carving hole functional independence drive unit perspective view that the present invention is based on machine head of embroidery machine;

Be illustrated in figure 2 the perspective view of embroidering device in the present invention;

What be illustrated in figure 3 embroidering device in the present invention blows mounting structure schematic diagram;

Be illustrated in figure 4 in the present invention the perspective view of carving aperture apparatus;

Be illustrated in figure 5 in the present invention carve aperture apparatus blow mounting structure schematic diagram;

Be illustrated in figure 6 the perspective view of presser feet drive unit in the present invention;

What be illustrated in figure 7 presser feet drive unit in the present invention blows mounting structure schematic diagram.

Detailed description of the invention

Based on a carving hole functional independence driving method for machine head of embroidery machine, comprise the steps:

One, cancel original color changing box device on machine head of embroidery machine or to cancel on machine head of embroidery machine on original color changing box device about the colour changing function of carving bore portion;

Two, by the main shaft on machine head of embroidery machine, moved up and down by the drive systems shank of main shaft by shank;

Three, independently carving hole motor is set, carves hole cutter by carving hole motor by the drive systems of carving hole cutter and move up and down; The drive system of carving hole cutter in step 3 comprises carving motor-driven carving hole, hole driving shaft, carving hole driving shaft is installed carving hole rocking arm, and carving hole rocking arm connects carving hole cutter knife bar by lateral connection axle.The independently carving hole motor of step 3, can independent operating under the main shaft stop state on the machine head of embroidery machine of step 2, reduces the overall energy consumption of embroidery machine.

Be a kind of crosspointer bar drive system as the drive system of shank in preferred method steps two, described crosspointer bar drive system is by the main shaft drives cam mechanism on machine head of embroidery machine, and cam mechanism drives two shanks with upper motion at present by link assembly simultaneously.Two shank sides of crosspointer bar drive system are equipped with a carving root hole cutter knife bar, and two carving root hole cutter knife bars realize two carving holes ability under the common driving of connecting axle.

Crosspointer bar drive system also coordinates two take-up structure; Two thread take-up lever structure comprises two take-up tooth, and two take-up tooth both sides are provided with corresponding thread take-up tension lever, are provided with the tension force holding device be installed on machine head of embroidery machine on rear side of two take-up tooth; Tension force holding device comprises the upward pressure block and downforce block that coordinate two take-up tooth respectively up and down.

Based on the carving hole functional independence driving method of machine head of embroidery machine, comprise the steps four: in step 2, the drive system of shank synchronously drives presser feet; Presser feet has precompressed ability.Presser feet precompressed ability moves to precompressed position by connecting presser feet lifting motor control presser feet, and then presser feet cooperation realizes final presser feet with the presser feet cam of machine head of embroidery machine spindle motor linkage rotation.

A kind of carving hole functional independence drive unit based on machine head of embroidery machine as shown in Figure 1, comprise the machine head of embroidery machine being provided with carving aperture apparatus and embroidering device, carving aperture apparatus comprises the carving hole cutter knife bar 5 and cutter head that move up and down, embroidering device comprises the shank 6 and syringe needle that move up and down, carving hole of the present invention cutter knife bar and shank do not need each other to switch, by separate drive systems in the process of moving up and down.

Drive system as shown in Figure 4,5 as a kind of specific embodiment carving aperture apparatus comprises independently carving hole motor, and connects carving hole cutter knife bar 5 transmission system of carving hole motor, and transmission system drives carving hole cutter knife bar 5 moves up and down.Carving hole cutter knife bar transmission system comprises the carving hole drive pulley 2 connecting carving hole motor, carving drive pulley 2 center, hole is connected with carving hole driving shaft 19, carving hole driving shaft 19 is provided with carving hole rocking arm 18, carving hole rocking arm 18 connects carving hole cutter knife bar 5 by lateral connection axle 17.The concrete course of work of this kind of transmission system for carving hole motor rotarily drive carving hole drive pulley 2, carving hole driving shaft 19 rotates, and then reaches carving hole rocking arm about 18 and rotates, and drives the technical purpose that carving hole cutter knife bar 5 independently moves up and down.

The drive system of embroidering device comprises head spindle motor as shown in Figure 2,3, and connects the shank transmission system of head spindle motor, and shank transmission system drives shank 6 and syringe needle move up and down.Shank transmission system comprises the driven pulley 1 connecting head spindle motor, and driven pulley 1 center is connected with main shaft 7, and main shaft 7 is provided with cam mechanism, and cam mechanism 13 drives shank 6 by link assembly.More existing cam gear can be adopted to realize for cam mechanism, can certainly be more advanced cam mechanism.Realize shank by cam mechanism to move up and down, mechanical structure ensure that the accuracy that shank runs.

Link assembly comprises the three hole connecting rods 14 being provided with three connecting holes, wherein the first connecting hole connects fastening screw, second connecting hole connects cam mechanism 13,3rd connecting hole socket connection pin 32, connecting pin 32 two ends are connected to shank 6, namely three hole connecting rods 14 are connected with two shanks 6, and connection mentioned here generally refers to indirect connection, are namely realized by other generally common existing connected modes.This kind of link assembly connects two shanks by three hole bar linkage structures by connecting pin, achieves the linkage structure of crosspointer bar, substantially increases production efficiency and equipment precision.

Switching device is provided with as between three hole connecting rods 14 described in optimization technique structure and shank 6, switching device comprises driver 12, respective drivers 12 is provided with jump electromagnet 10, driver 12 is socketed on shank driving shaft 11, driver 12 1 side connects three hole connecting rods 14, another side connecting needle bar 6, realizes mending and embroiders and every camera function, certainly also achieve the annexation between three hole connecting rods and shank.Three hole connecting rods 14 are connected with two shanks 6, and correspondence is provided with two thread take-up lever structures of cooperation; Two thread take-up lever structure comprises two take-up tooth 9, and two take-up tooth 9 both sides are provided with corresponding thread take-up tension lever 8, are provided with the tension force holding device be installed on machine head of embroidery machine on rear side of two take-up tooth 9.Tension force holding device comprises the upward pressure block 16 and downforce block 15 that coordinate two take-up tooth 9 respectively up and down.This kind of two thread take-up lever structure is provided with corresponding thread take-up tension lever 8 by two take-up tooth 9 both sides, realizes the technical purpose of once output control two thread take-up tension levers 6, reaches the high level of synchronization matching property of itself and two shanks 6 and syringe needle.

The drive system of embroidering device synchronously drives presser feet drive unit as shown in Figure 6,7; Presser feet drive unit comprises: presser feet lifting motor 3, and the presser feet prepressing device that presser feet lifting motor 3 drives, and presser feet prepressing device coordinates the presser feet cam 24 rotated with head spindle motor linkage.Presser feet prepressing device comprises the presser feet driving shaft 4 connecting presser feet lifting motor 3, presser feet driving shaft 4 connects presser feet link 28 by presser feet connecting rod 29, presser feet link 28 is respectively equipped with presser feet asessory shaft 22 and the presser feet axis of guide 23, presser feet 21 is installed bottom presser feet asessory shaft 22; Is provided with presser feet spring 27 in the middle of presser feet link 28, is provided with presser feet and be elevated drive block 26 between presser feet spring 27 and presser feet link 28, presser feet is elevated drive block 26 and is connected presser feet cam 24.This kind of presser feet prepressing device achieves the function of the precompressed of presser feet independence and synchronous spindle presser.The concrete course of work is: presser feet lifting motor 3 rotary actuation presser feet driving shaft 4 rotates, presser feet connecting rod 29 is made to press down presser feet link 28, presser feet link 28 drives presser feet 21 to arrive precompressed position by the presser feet axis of guide 23, and then presser feet cam 24 controls presser feet by presser feet lifting drive block 26 and realizes frequent synchronization lifting presser feet under head spindle motor drives.The presser feet cam 24 rotated with head spindle motor linkage, its concrete implementation procedure is generally adopted band wheel group structure to be connected by cam follower shaft 20 and realizes.

Left and right two panels is divided into as preferred structure presser feet 21, syringe needle respectively on a corresponding shank 6, for left and right two chip architecture of presser feet 21, it is equivalent to, and a presser feet controls, the needle head structure coordinated on two shanks, improve the planarization of cloth between two syringe needles, overcoming traditional presser feet can only the technology drawback of smooth limited area of cloth for single syringe needle.

Claims (10)

1., based on a carving hole functional independence driving method for machine head of embroidery machine, comprise the steps:

One, cancel original color changing box device on machine head of embroidery machine or to cancel on machine head of embroidery machine on original color changing box device about the colour changing function of carving bore portion;

Two, by the main shaft on machine head of embroidery machine, moved up and down by the drive systems shank of main shaft by shank;

Three, independently carving hole motor is set, carves hole cutter by carving hole motor by the drive systems of carving hole cutter and move up and down;

There is not ordinal relation successively between above-mentioned steps two, three, for the drive system of shank and the drive system of carving hole cutter according to the existing knowledge of those skilled in the art, adopt existing common drive system to realize.

2., as claimed in claim 1 based on the carving hole functional independence driving method of machine head of embroidery machine, it is characterized in that: the independently carving hole motor of step 3, can independent operating under the main shaft stop state on the machine head of embroidery machine of step 2.

3. as claimed in claim 1 based on the carving hole functional independence driving method of machine head of embroidery machine, it is characterized in that: in step 2, the drive system of shank is a kind of crosspointer bar drive system, described crosspointer bar drive system is by the main shaft drives cam mechanism on machine head of embroidery machine, and cam mechanism drives two shanks with upper motion at present by link assembly simultaneously.

4. as claimed in claim 3 based on the carving hole functional independence driving method of machine head of embroidery machine, it is characterized in that: described link assembly comprises three hole connecting rods of three connecting holes, wherein the first connecting hole connects fastening screw, second connecting hole connects cam mechanism, 3rd connecting hole socket connection pin, connecting pin two ends are connected to shank, and namely three hole connecting rods are connected with two shanks.

5. as claimed in claim 3 based on the carving hole functional independence driving method of machine head of embroidery machine, it is characterized in that: described crosspointer bar drive system coordinates two take-up structure; Described two thread take-up lever structures comprise two take-up tooth, and two take-up tooth both sides are provided with corresponding thread take-up tension lever, are provided with the tension force holding device be installed on machine head of embroidery machine on rear side of two take-up tooth; Described tension force holding device comprises the upward pressure block and downforce block that coordinate two take-up tooth respectively up and down.

6. as claimed in claim 1 based on the carving hole functional independence driving method of machine head of embroidery machine, it is characterized in that: the drive system of carving hole cutter in described step 3 comprises carving motor-driven carving hole, hole driving shaft, carving hole driving shaft is installed carving hole rocking arm, carving hole rocking arm connects carving hole cutter knife bar by lateral connection axle.

7. as claimed in claim 3 based on the carving hole functional independence driving method of machine head of embroidery machine, it is characterized in that: two shank sides of described crosspointer bar drive system are equipped with a carving root hole cutter knife bar, two carving root hole cutter knife bars realize two carving holes ability under the common driving of connecting axle.

8., as claimed in claim 1 based on the carving hole functional independence driving method of machine head of embroidery machine, comprise the steps four: in step 2, the drive system of shank synchronously drives presser feet; Described presser feet has precompressed ability.

9. as claimed in claim 8 based on the carving hole functional independence driving method of machine head of embroidery machine, it is characterized in that: described presser feet precompressed ability moves to precompressed position by connecting presser feet lifting motor control presser feet, and then presser feet cooperation realizes final presser feet with the presser feet cam of machine head of embroidery machine spindle motor linkage rotation.

10. as claimed in claim 8 based on the carving hole functional independence driving method of machine head of embroidery machine, it is characterized in that: described presser feet is divided into left and right two panels, the syringe needle respectively on a corresponding shank, realizes two presser feet ability.