CN110833254A - Fur-planting process and device for white leather strips and rubber wires through two-hole drilling - Google Patents

Abstract

The invention discloses a white leather strip and rubber filament one-hole two-planting drilling and hair planting process. It comprises the following steps: the method comprises the following steps: installing a brush handle; step two: drilling; step three: moving the brush handle; step four: the hair planting mechanism is used for planting hair and the drilling mechanism is used for synchronously drilling; step five: replacing the brush holder, and synchronously drilling two bristles in one hole; step six: repeating the first step to the fifth step until the hair planting and drilling work of one hole and two hairs of all brush handles is completed. The invention has the advantages of synchronously planting two kinds of wool in the same planting hole, having higher working efficiency, prolonging the service life of the brush handle and improving the use effect of the brush handle. The invention also discloses a device adopting the white leather strip and glue silk one-hole two-planting drilling and hair-planting process.

Description

Fur-planting process and device for white leather strips and rubber wires through two-hole drilling

Technical Field

The invention relates to the technical field of processing glass brush holders, in particular to a white leather strip and glue silk one-hole two-planting drilling and hair planting process. The invention also relates to a device adopting the white leather strip and glue silk one-hole two-planting drilling and hair planting process.

Background

Grind brush dish that glass used and expect highly (mainly the brush dish is planted the hair after, can not fall the hair at the in-process that uses), current processing technology has two kinds, firstly artifical threading: firstly, the brush holder needs to be drilled twice, and then the bristles are manually inserted into the brush holder one by one, so that the efficiency is very low, and each hole can only be made of the same material. Secondly, mechanical hair planting after drilling: different from manual threading, mechanical bristle planting has higher requirement on drilling (in order to prevent bristle falling off when the brush handle is in use), so a hole to be planted with bristles must comprise an upper large hole and a lower small hole, and a step with the outer diameter larger than that of the large hole is arranged in the middle of the hole. It is equivalent to say that one hole is processed at least three times, and then the hair planting is carried out after the hole is processed. Although the work efficiency is faster than manual threading, the same efficiency is not high.

In the traditional brush handle hair-planting processing, manual threading is included, each hole can only be made of a material, so that the using effect cannot be achieved sometimes, for example, a white strip hair material is planted in a planting hole, and the white strip hair material is made of a soft hair material and is easy to damage when glass is ground; for example, a glue silk is planted in a planting hole, the glue silk is made of a hard hair material, and glass is easy to damage due to the high hardness of the glue silk when glass is ground.

Therefore, there is a need to develop a method and a device for drilling and flocking glass brushes by which two kinds of bristles are planted in one flocking hole.

Disclosure of Invention

The invention aims to provide a process for implanting hair in two holes, namely a white leather strip and a glue silk hole, which has the advantages that two kinds of wool are synchronously implanted in the same implantation hole, so that the working efficiency is higher, the service life of a brush handle is prolonged, and the use effect of the brush handle is improved.

The second purpose of the invention is to provide the device adopting the white leather strip and glue silk one-hole two-hole-drilling-hole-hair-planting process, two kinds of hair materials are synchronously planted in the same hair-planting hole, and the working efficiency is higher.

In order to achieve the first object of the present invention, the technical solution of the present invention is: the two-hole drilling and hair planting process for the white leather strips and the rubber filaments is characterized by comprising the following steps of: the method specifically comprises the following steps:

the method comprises the following steps: a brush handle is arranged on the brush holder,

the two brush holders are respectively arranged on two clamp panels, the workbench moves transversely to drive one brush holder to move below the first drilling mechanism, and the other brush holder moves below the hair planting mechanism;

step two: drilling a hole, wherein the hole is drilled,

the first drilling mechanism is used for drilling the brush handle until the brush handle is drilled;

step three: the brush handle is moved, and the brush handle is moved,

the worktable moves transversely to drive the brush holder with the drilled holes to move below the hair planting mechanism, and the brush holder without the drilled holes moves below the second drilling mechanism synchronously;

step four: the hair planting mechanism is used for planting hair and the drilling mechanism is used for drilling synchronously,

the white leather strip wool feeding mechanism and the glue silk wool feeding mechanism synchronously feed wool to a wool nozzle of the wool planting mechanism;

the hair planting mechanism synchronously plants the white leather strips and the glue silk into hair planting holes on the brush holder which is drilled, and meanwhile, the second drilling mechanism drills holes on the brush holder which is not drilled;

repeating the operations until the hair planting of one brush handle is finished and the drilling of the other brush handle is finished;

step five: the brush handle is replaced and the two hair planting holes are drilled synchronously,

taking out the brush holder which is subjected to hair planting, and mounting the brush holder which is not drilled on a panel of the clamp;

the workbench moves transversely to drive the brush holder with the drilled holes to move below the bristle planting mechanism, and the brush holder without the drilled holes moves below the first drilling mechanism;

step six: repeating the first step to the fifth step until the hair planting and drilling work of one hole and two hairs of all brush handles is completed.

In the technical scheme, a mechanical clutch for controlling a white leather strip hair feeding mechanism, a rubber filament hair feeding mechanism and a hair planting mechanism is arranged on a device adopting a white leather strip and rubber filament one-hole two-planting drilling and hair planting process; and the connecting end of the mechanical clutch is respectively connected with the white strip hair feeding mechanism, the rubber filament hair feeding mechanism and the hair planting mechanism.

In the technical scheme, when the mechanical clutch controls the white leather strip hair feeding mechanism, the glue silk hair feeding mechanism and the hair planting mechanism to work synchronously, the hair planting operation of two hairs in one hole is carried out synchronously;

when the mechanical clutch controls the white leather strip hair feeding mechanism and the hair planting mechanism to work synchronously and the glue silk hair feeding mechanism does not work, the hair planting operation of the white leather strips is carried out;

when the mechanical clutch controls the synchronous work of the glue silk hair feeding mechanism and the hair planting mechanism and the white strip hair feeding mechanism does not work, the hair planting operation of the glue silk is carried out.

In the technical scheme, the hair planting holes comprise upper end hair planting holes and middle fixing horse nail holes; the upper end planting hole is communicated with the middle fixing tack hole;

the drilling mechanism comprises a first drill bit for drilling an upper end planting hole and a second drill bit for drilling a middle part fixing rivet hole; the second drill bit is located on the side of the first drill bit.

In the technical scheme, the implantation hole further comprises a lower end nail withdrawing hole; the upper end planting hole, the middle fixing horse nail hole and the lower end nail withdrawing hole are communicated to form a through hole structure;

the drilling mechanism further comprises a third drill bit for drilling a nail withdrawing hole at the lower end; the first drill bit is positioned above the third drill bit and has the same central line as the third drill bit; the second drill bit is located on the side of the first drill bit and above the third drill bit.

In the technical scheme, when the drilling operation and the hair planting operation of two hairs in one hole are synchronously carried out, the glue silk hair feeding mechanism longitudinally feeds the glue silk into the hair planting mechanism, the white fur strip hair feeding mechanism transversely feeds the white fur strip into the hair planting mechanism, and the white fur strip is positioned above the glue silk.

In order to achieve the second object of the present invention, the technical solution of the present invention is: the device adopting the two-hole-drilling and hair-planting process of the white leather strips and the glue yarns comprises a hair-planting mechanism, a workbench, a base and a drilling mechanism; the method is characterized in that: the fur feeding mechanism comprises a white leather strip fur feeding mechanism and a rubber silk fur feeding mechanism; the white leather strip hair feeding mechanism and the glue silk hair feeding mechanism synchronously feed the white leather strips and the glue silks to the hair planting mechanism for hair planting.

In the technical scheme, the white leather strip wool feeding mechanism comprises a white leather strip coiling material, a feeding part, a wool cutting part, a wool discharging part and a knife shell structure;

the white strip coiling material is positioned above the feeding part and is sent to the hair cutting part through the feeding part to be cut into coiling strips; the lower hair part is positioned on the side of the hair cutting part and above the cutter shell structure;

the lower hair part sends a coiling strip to the knife shell structure; the cutter shell structure transversely sends the coil stock strip to a hair planting mechanism for hair planting.

In the technical scheme, the hair cutting part comprises a fixed cutter and a movable cutter which is movably connected with the fixed cutter in the transverse direction and used for cutting hair;

the lower wool part comprises a lower wool groove and a wool receiving groove structure which is movably connected with the lower wool groove in the longitudinal direction and is used for sending wool;

the knife shell structure comprises a hair feeding knife shell and a hair feeding knife which is movably connected with the hair feeding knife shell in the transverse direction and used for feeding hair.

In the technical scheme, the rubber wire wool feeding mechanism comprises a rubber wire, a wire passing guide mechanism, a first guide wheel, a second guide wheel, a main motor, a wire coil, a wire cutting mechanism, a first wool feeding clamping opening and a second wool feeding clamping opening; the first guide wheel is positioned below the side of the wire coil; the second guide wheel is located above the side of the first guide wheel;

the first guide wheel is positioned between the wire coil and the second guide wheel position;

the main motor is connected with the mechanical clutch through a belt;

one end of the rubber wire is wound on the wire coil, and the other end of the rubber wire is conveyed to the hair planting mechanism through the wire passing guide mechanism, the first guide wheel, the second guide wheel, the first hair conveying clamping opening and the second hair conveying clamping opening in sequence; the glue thread is cut off through the thread cutting mechanism.

The white leather strip is a white ground leather strip.

The invention has the following advantages:

(1) the drilling and hair-planting machine has higher efficiency, can realize the planting of two kinds of hair materials (generally nylon hair or PP hair and white abrasive leather strips, wherein PP is capillary and hard, and the white abrasive leather strips are thick and soft and have water absorption) in one hole, and can be used for independently planting the hair material of any one material or planting the hair materials of two kinds of different materials in the same hole by the control of the mechanical clutch; the invention has a plurality of selectable drilling and hair-planting modes, and the required drilling and hair-planting modes can be flexibly set through a computer according to actual requirements;

(2) the two wools made of different materials are placed in the same hole, the wools made of the two materials are soft and hard and are complementary, or the wools wrap the bristles, or the wools wrap the wools, so that a better use effect can be achieved, the service life can be prolonged (compared with a brush handle which is independently planted with a white grinding leather strip, the service life of the brush handle is prolonged from 1 day to 3 days when the brush handle is independently planted with the white grinding leather strip), and the grinding effect is better;

(3) the drilling and hair-planting machine can complete drilling at one time, has high drilling efficiency and ensures that the drilling and hair-planting operation of the hair-planting machine is carried out synchronously; the defect that drilling efficiency is low due to three times of drilling in the prior art is overcome; the hair planting hole is provided with the upper end hair planting hole and the middle fixing horse nail hole, and the middle fixing horse nail hole can firmly fix the horse nail, so that the wool is firmly fixed in the hair planting hole; the planting hole is also provided with a lower end nail withdrawing hole, so that the staples and the materials can be conveniently withdrawn from the lower end, and the brush handle after the staples are withdrawn and withdrawn can be repeatedly utilized, thereby saving resources and cost;

(4) the hair holding amount of the white leather strips and the rubber threads is consistent every time, the hair holding is accurate, the consistency of the brush handle prepared by the method is higher, the use effect of the brush handle is improved, and the service life of the brush handle is prolonged;

(5) the glass brush manufactured by the invention is mainly applied to polishing the surface of glass in the glass manufacturing process; the invention discovers that the consumable white grinding leather strips and PP hairs are matched in the same hole (the white grinding leather is surrounded in the middle of the hole by the rubber thread or the rubber thread is surrounded in the middle by the white grinding leather) through the research on glass disc brushes, glass roller brushes and the like for more than one year, so that the use effect is better, the contour degree after polishing is good, the success rate of the glass polishing effect is high, the wear resistance of the brush handle is improved, and the use time of the brush handle is greatly prolonged;

(6) the invention subverts the cognition of the industry on the production of the glass brush, improves the product quality, the processing efficiency and the use efficiency of the brush handle by times, saves manpower and material resources for enterprises, and creates benefits!

Drawings

FIG. 1 is a schematic view of the installation structure of the white strip fur feeding mechanism and the rubber filament fur feeding mechanism of the invention.

FIG. 2 is a schematic diagram of the local deletion operation structure of the present invention.

Fig. 3 is a schematic structural diagram I of a fur strip hair feeding mechanism according to the present invention.

Fig. 4 is a schematic view of the installation structure of the fur strip hair feeding mechanism, the glue silk hair feeding mechanism and the hair planting mechanism.

Fig. 5 is a schematic diagram of a structure of a fur strip hair feeding mechanism in the invention.

Fig. 6 is a schematic view of the working structure of the invention with two brush holders mounted on the worktable.

Fig. 7 is a schematic perspective view of a handle positioning structure of the present invention without a handle.

Fig. 8 is a schematic view of the hair feeding operation structure of the knife shell structure of the hair planting mechanism and the white strip hair feeding mechanism of the invention.

Fig. 9 is a schematic view of the installation structure of the glue silk hair feeding mechanism and the hair planting mechanism of the invention.

Fig. 10 is a schematic view of the main viewing angle working structure of the bristle planting mechanism of the present invention for planting the bristles on the brush handle.

Fig. 11 is a partial sectional structural view of the brush handle after the fur strip and the glue wire are planted in the two holes with one hole for hair planting.

FIG. 12 is a perspective view of the drilling mechanism of the present invention.

Fig. 13 is an enlarged view of fig. 12 at a.

Fig. 14 is a rear view structure schematic diagram of the white strip wool feeding mechanism of the invention.

FIG. 15 is a schematic view of a partial structure of a mechanical clutch for controlling the operation of a rubber filament feeding mechanism.

FIG. 16 is a schematic diagram of the working structure of the fur feeding knife of the fur strip feeding mechanism for feeding fur above the fur nozzle.

Fig. 17 is a schematic view of the connection perspective structure of the bottom view angle of the hair cutting part and the lower hair part of the white strip hair feeding mechanism of the invention.

FIG. 18 is a schematic sectional view showing the connection between the hair cutting part and the lower hair part of the white strip feeding mechanism of the present invention.

Fig. 19 is a schematic view of the top-view connection perspective structure of the hair cutting part and the hair removing part of the white strip hair feeding mechanism.

FIG. 20 is a schematic view of the partial structure of a mechanical clutch for controlling the feeding of the fur strip feeding mechanism according to the present invention.

FIG. 21 is a schematic view of a partial front view of the wool feeding operation of the glue yarn wool feeding mechanism of the present invention.

FIG. 22 is a schematic structural view of a part of a cross-sectional view and a top view of the fur feeding operation of the plastic filament fur feeding mechanism of the present invention.

Fig. 23 is an enlarged view of fig. 22 at a.

FIG. 24 is a rear view of a partial structure of the base with two mechanical clutches installed according to the present invention.

In the figure, 1-white fur strip wool feeding mechanism, 1.1-white fur strip rolling material, 1.11-white fur strip, 1.2-feeding part, 1.21-feeding servo motor, 1.22-feeding roller, 1.23-feeding cylinder, 1.3-middle plate, 1.31-first feeding port, 1.4-wool cutting part, 1.41-fixed knife, 1.411-sliding groove, 1.412-second feeding port, 1.42-movable knife, 1.43-wool cutting movable knife swing arm, 1.44-wool cutting movable knife time wheel, 1.45-wool pressing mechanism, 1.5-supporting piece, 1.6-T-type material rack, 1.7-wool discharging part, 1.71-wool discharging groove, 1.711-longitudinal through groove, 1.712-third feeding port, 1.72-wool receiving groove structure, 1.721-wool receiving groove, 1.7211-wool receiving port, 1.722-longitudinal wool feeding swing arm, 1.723-longitudinal wool feeding time wheel, 1.8-knife shell structure, 1.81-knife shell, 1.811-knife shell guide rail, 1.82-burr feeding knife, 1.821-burr feeding mouth, 1.83-horizontal burr feeding swing arm, 1.84-horizontal burr feeding swing arm, 1.9-middle plate, 1.10-fixing plate, 2-glue thread feeding mechanism, 2.1-glue thread, 2.2-thread passing guide mechanism, 2.21-thread passing rod, 2.22-guide column, 2.23-guide groove, 2.24-guide rod, 2.3-first guide wheel, 2.4-second guide wheel, 2.5-main motor, 2.6-wire coil, 2.7-thread cutting mechanism, 2.71-thread cutting balance, 2.72-thread cutting support rod, 2.73-thread cutting swing arm, 2.74-thread cutting connecting rod, 2.75-thread cutting fixed knife, 2.76-movable knife, 2.77-movable knife, 2.8-burr feeding mouth, 2.9-second hair feeding nip, 2.10-wire feeding cam, 2.12-wire feeding support rod, 2.13-wire feeding swing arm, 2.14-glue line frame, 3-hair planting mechanism, 3.1-hair needle, 3.2-hair tip, 3.21-hair tip hole, 4-Y axis guide rail, 5-X axis guide rail, 5.1-first slide block, 6-workbench, 6.1-speed limiting motor, 6.2-brush handle positioning structure, 6.21-brush handle supporting structure, 6.22-brush handle locking mechanism, 6.221-clamp panel, 6.222-brush handle locking device, 6.223-brush handle locking cylinder, 6.3-Z axis rotating motor, 7-brush handle, 7.1-hair planting hole, 7.11-upper hair planting hole, 7.12-middle fixing horse nail hole, 7.13-lower end nail withdrawing hole, 8-hair material, 9-base, 10-drilling mechanism, 10.1-a first drill bit, 10.2-a second drill bit, 10.3-a third drill bit, 10.4-an up-and-down control servo motor, 10.5-a front-and-back control servo motor, 10.6-a left-and-right control servo motor, 10.7-a lifting cylinder, 11-a mechanical clutch, 12-a device adopting a one-hole two-planting drilling and hair planting process of white leather strips and glue silk.

Detailed Description

The embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are not intended to limit the present invention, but are merely exemplary. While the advantages of the invention will be clear and readily understood by the description.

The length and the thickness of the white leather strip roll material of the white leather strip are fixed values, the white leather strip with the same width is cut into white leather strips with the same width through the hair cutting part 1.4, the thickness and the width of the white leather strips can be set to be the same value, the length of the white leather strip is equal to the length of the white leather strip roll material and is larger than the thickness of the white leather strip roll material, and the length, the thickness and the width of the white leather strip are all millimeters; the white leather strip coiled material and the rubber threads of the white leather strip are provided by customers and are generally sold in the market.

The white leather strip is a white ground leather strip.

The glue silk can be hard glue silk or soft glue silk according to actual need. The embodiment of the invention selects the rubber silk with the hardness larger than that of the white leather strips to support the white leather strips.

The white leather strip hair feeding mechanism 1, the glue silk hair feeding mechanism 2 and the hair planting mechanism are applied in the company of 2018 in 11 months and 23 daysIs disclosed byCN109730441APatent documents with the patent names of a white strip and wool material integrated body hair-planting machine and a hair-planting method thereof and the patent publication number of CN106343708A and the patent names of a full-automatic wound steel wire brush stranded wire drilling and hair-planting integrated device and a full-automatic wound steel wire brush stranded wire drilling and hair-planting integrated method are recorded.

Examples

The invention is explained in detail by adopting the invention to carry out the drilling and hair planting of the glass brush with one hole and two hair on the glass brush handle, and has the same guiding function for applying the invention to other brush handles.

Example 1

The glass brush handle of this example is set as follows: synchronously planting 1.11 white strips and 2.11 glue silk strips in each hole; the white strip 1.11 is positioned on the inner core, and the rubber silk strip 2.11 is positioned on the periphery of the white strip 1.11.

As shown in fig. 1, fig. 2, fig. 4, fig. 6, fig. 7, fig. 9, fig. 10, fig. 15, fig. 20, fig. 22 and fig. 24, the two-hole drilling and hair-planting process for white leather strips and rubber wires specifically comprises the following steps:

the method comprises the following steps: a brush handle is arranged on the brush holder,

two brush holders 7 are respectively arranged on two clamp panels 6.221, and a brush holder locking device 6.222 is controlled by adjusting a locking cylinder 6.223 to tightly lock the brush holders 7 on the clamp panels 6.221; the workbench 6 moves transversely to drive one brush holder 7 to move below the first drilling mechanism 10, and the other brush holder 7 moves below the hair planting mechanism 3;

step two: drilling a hole, wherein the hole is drilled,

the first drilling mechanism 10 drills the brush handle 7 until the brush handle 7 is drilled;

step three: the brush holder 7 is moved so that the brush,

the worktable 6 moves transversely to drive the brush holder 7 with holes drilled to move below the hair planting mechanism 3, and the brush holder 7 without holes drilled moves below the second drilling mechanism 10 synchronously;

step four: the hair planting mechanism 3 synchronously drills the hair and the drilling mechanism 10,

the white leather strip wool feeding mechanism 1 and the glue silk wool feeding mechanism 2 synchronously feed wool to a wool nozzle of the wool planting mechanism 3; the method comprises the following specific steps:

the fur feeding knife 1.82 moves to the lower part of the lower fur groove 1.71 through the knife shell guide rail 1.811, and the material receiving port 1.7211 presses the white-skin strip 1.111.11 into the knife shell material feeding port 1.821;

the fur feeding knife 1.82 moves forward, and the white strip 1.11 is fed above a fixed knife of the cut cellosilk device;

synchronously, the glue silk feeding mechanism 2 feeds the glue silk 2.1 into the thread cutting mechanism, and the thread cutting mechanism cuts the glue silk 2.1 into the glue silk strip 2.11 while the white strip 1.11 is downwards knotted and contacted with the glue silk 2.1; at the moment, the white strip 1.11 and the glue silk strip 2.11 are simultaneously positioned above the fur nozzle 3.2, and the glue silk strip 2.11 is positioned below the white strip 1.11;

the hair planting mechanism 3 enables the U-shaped iron nail to be downwards buckled in the middle of the white leather strip 1.11 and the rubber silk strip 2.11, the hair needle 3.1 downwards presses the iron nail, the white leather strip 1.11 and the middle of the rubber silk strip 2.11 to vertically downwards penetrate through a hair mouth hole 3.21 in the middle of the hair mouth 3.2 (the hair mouth hole 3.21 is of a through hole structure), and the middle of the iron nail, the white leather strip 1.11 and the rubber silk strip 2.11 is planted in the hair planting hole 7.1; the iron nail is fixed in the middle fixing horse nail hole 7.12;

the hair feeding cutter 1.82 returns to the cutter shell feeding port 1.821 along the cutter shell guide rail 1.811 and is positioned under the material receiving port 1.7211; finishing the hair planting of the set white strips 1.11 and the set glue silk strips 2.11; synchronously, one end of the glue thread 2.1 is prevented from being threaded through the thread disc 2.6, and the other end is delivered into a hair mouth of the hair planting mechanism 3 through the thread guide mechanism 2.2, the first guide wheel 2.3, the second guide wheel 2.4, the first hair delivering clip opening 2.8 and the second hair delivering clip opening 2.9 in sequence;

the hair-planting mechanism 3 synchronously plants the white leather strips and the glue silk into the planting holes 7.1 on the brush holder 7 which is drilled, and meanwhile, the second drilling mechanism 10 drills holes on the brush holder 7 which is not drilled;

repeating the operation until the hair planting of one brush handle 7 is finished and the drilling of the other brush handle 7 is finished;

step five: the brush handle is replaced and the two hair planting holes are drilled synchronously,

taking out the brush holder 7 with the implanted bristles, and mounting the brush holder without holes on a clamp panel 6.221;

the worktable 6 moves transversely to drive the brush holder 7 with holes to move below the hair planting mechanism 3 and the brush holder without holes to move below the first drilling mechanism 10;

step six: and repeating the first step to the fifth step until the hair planting and drilling work of two hairs in one hole is completed.

Furthermore, a mechanical clutch 11 for controlling the white leather strip hair feeding mechanism 1, the glue silk hair feeding mechanism 2 and the hair planting mechanism 3 to work is arranged on the device adopting the white leather strip and glue silk one-hole two-planting drilling and hair planting process; the connecting end of the mechanical clutch 11 is respectively connected with the white strip hair feeding mechanism 1, the rubber filament hair feeding mechanism 2 and the hair planting mechanism 3.

As shown in fig. 15, 20 and 24, there are two mechanical clutches 11; one of the hair-feeding and hair-planting mechanisms is used for controlling the hair-feeding of the white leather strip hair-feeding mechanism 1 and the hair-planting operation of the hair-planting mechanism 3; the other is used for controlling the hair feeding of the glue silk hair feeding mechanism 2 and the hair planting operation of the hair planting mechanism 3;

through the control of the mechanical clutch 11, the invention has three selectable modes, wherein the first mode is as follows: the mechanical clutch 11 controls the white leather strip hair feeding mechanism 1 and the glue silk hair feeding mechanism 2 to synchronously feed hair, and the hair planting mechanism 3 synchronously plants hair; the second mode is: the mechanical clutch 11 controls the rubber filament hair feeding mechanism 2 to stop running and controls the white leather strip hair feeding mechanism 1 to feed hair and the hair planting mechanism 3 to plant hair synchronously; the third mode is: the mechanical clutch 11 controls the white leather strip hair feeding mechanism 1 to stop running, and controls the glue silk hair feeding mechanism 2 to feed hair and the hair planting mechanism 3 to plant hair synchronously.

Further, when the mechanical clutch 11 controls the white leather strip hair feeding mechanism 1, the glue silk hair feeding mechanism 2 and the hair planting mechanism 3 to work synchronously, the device 12 for the one-hole two-hair planting drilling and hair planting process of the white leather strips and the glue silks is adopted to synchronously carry out the one-hole two-hair planting operation;

when the mechanical clutch 11 controls the white leather strip hair feeding mechanism 1 and the hair planting mechanism 3 to work synchronously and the glue silk hair feeding mechanism 2 does not work, the white leather strip hair planting operation is carried out by adopting a device 12 for a white leather strip and glue silk one-hole two-hole hair planting process;

when the mechanical clutch 11 controls the synchronous work of the rubber filament hair feeding mechanism 2 and the hair planting mechanism 3 and the white leather strip hair feeding mechanism 1 does not work, the device 12 for the white leather strip and rubber filament one-hole two-hole drilling and hair planting process is adopted to carry out hair planting operation of rubber filaments.

Further, the planting holes 7.1 comprise upper end planting holes 7.11 and middle fixing tack holes 7.12; the upper end hair planting hole 7.11 is communicated with the middle fixing tack hole 7.12;

the drilling mechanism 10 comprises a first drill 10.1 for drilling an upper implantation hole 7.11 and a second drill 10.2 for drilling a middle fixing horse nail hole 7.12; the second drill 10.2 is located laterally to the first drill 10.1.

Further, the implantation hole 7.1 also comprises a lower end nail withdrawing hole 7.13; the upper end planting hole 7.11, the middle fixing nail hole 7.12 and the lower end nail withdrawing hole 7.13 are communicated to form a through hole structure; the staples and the wool 8 planted in the hair planting holes 7.1 can be withdrawn through the nail withdrawing holes 7.13 at the lower end, and the brush handle 7 after the wool withdrawal can be reused;

the drilling mechanism 10 also comprises a third drill 10.3 for drilling a nail withdrawing hole 7.13 at the lower end; the first drill bit 10.1 is located above the third drill bit 10.3 and has the same centre line as the third drill bit 10.3; the second drill 10.2 is located laterally to the first drill 10.1 and laterally above the third drill 10.3 (as shown in fig. 1, 10, 11).

The hair planting mechanism and the drilling mechanism are synchronized by servo control.

As shown in fig. 1, 2, 12 and 13, the drilling mechanism 10 further includes an up-down control servo motor 10.4 for controlling the first drill 10.1, the second drill 10.2 and the third drill 10.3 to move up and down synchronously, a front-back control servo motor 10.5 for controlling the second drill 10.2 to move back and forth, a left-right control servo motor 10.6 for controlling the second drill 10.2 to move left and right, and a lifting cylinder 10.7 for controlling the second drill 10.2 to move up and down;

wherein, the up-and-down control servo motor 10.4 controls the first drill 10.1 and the third drill 10.3 to synchronously move up and down;

the drilling operation of the drilling mechanism 10 is as follows:

when the up-down control servo motor 10.4 controls the first drill bit 10.1 and the third drill bit 10.3 to synchronously move downwards, the first drill bit 10.1 is used for drilling an upper end hair planting hole 7.11;

when the up-and-down control servo motor 10.4 controls the first drill bit 10.1 and the third drill bit 10.3 to synchronously move upwards, the third drill bit 10.3 is used for drilling a lower end nail withdrawing hole 7.13; the upper end hair planting hole 7.11 and the lower end nail withdrawing hole 7.13 form a hair planting hole 7.1 in a through hole structure;

when the bristle planting hole 7.1 does not move below the second drill 10.2 along with the rotation of the brush holder 7, the lifting cylinder 10.7 fixes the second drill 10.2 above the brush holder 7, and the drilling operation of the first drill 10.1 and the third drill 10.3 is not hindered;

when the bristle planting hole 7.1 moves to the position below the second drill bit 10.2 along with the rotation of the brush holder 7, the lifting cylinder 10.7 returns the second drill bit 10.2, and the second drill bit 10.2 and the first drill bit 10.1 and the third drill bit 10.3 synchronously perform drilling operation; the front and back control servo motor 10.5 controls the second drill bit 10.2 to move front and back until the second drill bit 10.2 is positioned right above the hair planting hole 7.1; when the up-down control servo motor 10.4 controls the first drill bit 10.1, the second drill bit 10.2 and the third drill bit 10.3 to synchronously move downwards, the first drill bit 10.1 is used for drilling an upper end hair planting hole 7.11, the second drill bit 10.2 extends into the upper end hair planting hole 7.11 and is controlled by the left-right control servo motor 10.6 to move left and right, and the second drill bit is used for widening the lower end of the upper end hair planting hole 7.11 to form a middle fixing tack hole 7.12;

the drilling mechanism 10 is used for synchronously carrying out hair planting operation with the hair planting mechanism through the control of an up-down control servo motor 10.4, a front-back control servo motor 10.5 and a left-right control servo motor 10.6.

Furthermore, when the device adopting the white leather strip and glue filament one-hole two-hole drilling and hair planting process is used for synchronously performing the drilling operation and the one-hole two-hair planting operation, the glue filament hair feeding mechanism 2 longitudinally feeds the glue filament into the hair planting mechanism 3, the white leather strip hair feeding mechanism 1 transversely feeds the white leather strip into the hair planting mechanism 3, and the white leather strip is positioned above the glue filament (as shown in fig. 4).

The white leather strips can be positioned below or on the side of the rubber wires by setting the height difference of the white leather strip hair feeding mechanism 1 and the rubber wire hair feeding mechanism 2.

Furthermore, when the hairs are planted, the hair planting number of the white leather strips is controlled according to actual requirements, for example, one white leather strip is planted at a time or two white leather strips are planted at a time according to production requirements.

With reference to the accompanying drawings: the device adopting the two-hole drilling and hair-planting process of the white leather strips and the glue wires comprises a hair-planting mechanism 3, a workbench 6, a base 9 and a drilling mechanism 10; the workbench 6 is positioned on the base 9, a Y-axis guide rail 4 is arranged on the base 9 through a first supporting structure 4.1, an X-axis guide rail 5 is connected to the Y-axis guide rail 4 in a sliding mode through a first sliding block 5.1, and a second sliding block 6.1 matched with the X-axis guide rail 5 is arranged at the lower end of the workbench 6; the method is characterized in that: the fur-removing machine also comprises a white leather strip fur-conveying mechanism 1 and a rubber silk fur-conveying mechanism 2; the white leather strip hair feeding mechanism 1 and the glue silk hair feeding mechanism 2 synchronously feed the white leather strips and the glue silks to the hair planting mechanism 3 for hair planting;

the white leather strip hair feeding mechanism 1, the glue silk hair feeding mechanism 2 and the hair planting mechanism 3 are all arranged on the workbench 6.

A brush holder positioning structure 6.2 is arranged on the workbench 6, and a speed limiting motor 6.1 and a Z-axis rotating motor 6.3 are arranged on the brush holder positioning structure 6.2 and used for providing rotating power for the brush holder; the brush handle positioning structure 6.2 comprises a brush handle supporting structure 6.21 and a brush handle locking mechanism 6.22, the brush handle locking mechanism 6.22 comprises a clamp panel 6.221, a brush handle locking device 6.222 and a brush handle locking cylinder 6.223, and the locking cylinder 6.223 is arranged on the brush handle supporting structure 6.21 and used for providing locking power; three brush holder locking devices 6.222 are evenly distributed on the clamp panel 6.221 for locking the brush holders.

Further, the white fur strip wool feeding mechanism 1 comprises a white fur strip roll feeding material 1.1, a feeding part 1.2, an intermediate plate 1.3, a wool cutting part 1.4, a support part 1.5, a T-shaped material rack 1.6, a wool discharging part 1.7, a first knife shell structure 1.8, an intermediate plate 1.9 and a fixing plate 1.10; the middle plate 1.3 is fixed on the middle plate 1.9 through a support part 1.5, the fixing plate 1.10 is fixed on the middle plate 1.9 through the support part 1.5, and a transverse hair feeding time wheel 1.84 is positioned between the fixing plate 1.10 and the middle plate 1.9; the T-shaped rack 1.6 is fixed on the middle plate 1.3, and the white strip coil material 1.1 is arranged at two transverse ends of the T-shaped rack 1.6; the hair cutting part 1.4 and the middle plate 1.3 are arranged in parallel and fixed on the lower end face of the middle plate 1.3; the lower hair part 1.7 is perpendicular to the middle plate 1.3 and fixed on the end face of the middle plate 1.3 side.

The feeding part 1.2 is positioned between the white strip coil material 1 and the middle plate 3; the white strip coil material 1.1 penetrates through the feeding part 2 and then is in a parallel state; the white leather strip rolling material 1.1 synchronously passes through the feeding part 1.2, the middle plate 1.3 and the hair cutting part 1.4 from top to bottom and is cut into white leather strips through the hair cutting part 1.4; the white leather strips are pushed to a lower fur part 1.7 through a fur cutting part 1.4 and are pressed into the fur planting mechanism 3 through a first cutter shell structure 1.8;

the feeding part 1.2 comprises a feeding servo motor 1.21, two feeding rollers 1.22 and two feeding cylinders 1.23, the two feeding rollers 1.22 are arranged at intervals, and a first feeding port 1.31 is arranged on the intermediate plate 1.3; the feeding part 1.2 is fixed on the middle plate 1.3 through the supporting piece 1.5;

the hair cutting part 1.4 comprises a fixed cutter 1.41, a movable cutter 1.42, a hair cutting movable cutter swinging arm 1.43, a hair cutting movable cutter time wheel 1.44 and a hair pressing mechanism 1.45, wherein the movable cutter 1.42 is connected to the hair cutting movable cutter time wheel 1.44 through the hair cutting movable cutter swinging arm 1.43; the hair pressing mechanism 1.45 is positioned above the movable knife 1.42;

the fixed cutter 1.41 is fixed on the lower end surface of the middle plate 1.3 through a connecting fulcrum; the fixed knife 1.41 is provided with a sliding groove 1.411 matched with the movable knife 1.42; the movable knife 1.42 is connected in the sliding groove 1.411 in a sliding way; a second feeding port 1.412 corresponding to the first feeding port 1.31 is arranged at the upper end of the fixed cutter 1.41; the white strip coil material 1.1 synchronously passes through the first feeding port 1.23, the second feeding port 1.31 and the third feeding port 1.412 from top to bottom and enters the fixed cutter 1.41;

the hair cutting movable knife time wheel 1.44 drives the movable knife 1.42 to transversely move in the sliding groove 1.411 through the hair cutting movable knife swinging arm 1.43, and the white strip coiled material 1.1 is cut into white strips through the transversely moving movable knife 1.42.

The lower wool part 1.7 comprises a lower wool groove 1.71 and a receiving groove structure 1.72, the receiving groove structure 1.72 comprises a receiving groove 1.721, a longitudinal wool feeding swing arm 1.722 and a longitudinal wool feeding time wheel 1.723, and the receiving groove 1.721 is connected to the longitudinal wool feeding time wheel 1.723 through a longitudinal wool feeding swing arm 1.722;

a longitudinal through groove 1.711 is formed in the lower wool groove 1.71, and the material receiving groove 1.721 is slidably connected into the longitudinal through groove 1.711; the lower end of the material receiving groove 1.721 is provided with a material receiving opening 1.7211, and the material receiving opening 1.721 is matched with the white strips;

a third feeding port 1.712 corresponding to the fixed cutter 1.41 is arranged on the side surface of the lower wool groove 1.71, and the third feeding port 1.712 is vertically communicated with the longitudinal through groove 1.711; the white leather strips are pushed by the transversely moving movable knife 1.42 and synchronously pass through the sliding groove 1.411, the fourth feeding port 1.712 and the material receiving port 1.7211 of the material receiving groove 1.721;

the longitudinal wool feeding time wheel 7.23 drives the material receiving groove 1.721 to move in the longitudinal through groove 1.711 through the longitudinal wool feeding swing arm 1.722.

The cutter shell structure 1.8 comprises a fur feeding cutter shell 1.81, a fur feeding cutter 1.82 which is movably connected with the fur feeding cutter shell 1.81 in the transverse direction and used for feeding fur, a transverse fur feeding swing arm 1.83 and a transverse fur feeding time wheel 1.84;

a knife shell guide rail 1.811 is arranged at the upper end of the hair feeding knife shell 1.81, and the hair feeding knife 1.82 is movably connected on the knife shell guide rail 1.811;

the transverse hair feeding time wheel 1.84 drives the hair feeding cutter 1.82 to transversely move on the cutter shell guide rail 1.811 through the transverse hair feeding swing arm 1.83;

a burr feeding port 1.821 is arranged on the burr feeding 1.82; the white fur strip is fed to the hair nozzle 3.2 of the hair-planting mechanism 3 to perform hair-planting operation (as shown in figures 1-8, 14, 16, 17, 18 and 19) through the movement of the hair knife feed port 1.821 on the knife shell guide rail 1.811.

The knife shell structure 1.8 and the rubber filament hair feeding mechanism 2 are arranged vertically (as shown in fig. 8).

Further, as shown in fig. 9, 15, 21, 22 and 23, the glue yarn bristle feeding mechanism 2 includes a glue yarn 2.1, a thread passing guide mechanism 2.2, a first guide wheel 2.3, a second guide wheel 2.4, a main motor 2.5, a wire coil 2.6, a thread cutting mechanism 2.7, a first bristle feeding nip 2.8 and a second bristle feeding nip 2.9; the first guide wheel 2.1 is positioned below the side of the wire coil 2.6; the second guide wheel 2.2 is positioned above the first guide wheel 2.1;

the first guide wheel 2.3 is positioned between the wire coil 2.6 and the second guide wheel 2.4;

the main motor 2.5 is connected with the mechanical clutch 11 through a belt;

the first wool feeding clip opening 2.8 and the second wool feeding clip opening 2.9 are arranged at intervals; the second wool feeding clamping opening 2.9 is arranged between the first wool feeding clamping opening 2.8 and the thread cutting mechanism 2.7;

the thread cutting mechanism 2.7 comprises a thread cutting balance wheel 2.71, a thread cutting support rod 2.72, a thread cutting swing arm 2.73, a thread cutting connecting rod 2.74, a thread cutting fixed cutter 2.75, a thread cutting movable cutter 2.76 and a thread cutting cutter holder 2.77;

one end of the tangent connecting rod 2.74 is connected with the tangent balance wheel 2.71, the other end is connected with the tangent swing arm 2.73, and the tangent swing arm 2.73 is connected with the tangent support rod 2.72;

the other end of the tangent supporting rod 2.72 is connected with the tangent moving blade 2.76; the movable cutting knife 2.76 transversely moves in the cutting knife holder 2.77; the thread cutting fixed knife 2.75 is fixed at one end of the thread cutting knife holder 2.77, and the glue thread passes through the thread cutting movable knife 2.76; the movable cutter 2.76 transversely moves to coincide with the fixed cutter 2.75 to cut off the glue line;

the glue silk wool feeding mechanism 2 also comprises a thread feeding cam 2.10, a thread feeding support rod 2.12 and a thread feeding swing arm 2.13; one end of the wire feeding support rod 2.12 is connected with the wire feeding cam 2.10, and the other end is connected with the wire feeding swing arm 2.13; the thread feeding swing arm 2.13 is connected with the first wool feeding clamping opening 2.8; the first wool feeding clip mouth 2.8 is used for feeding yarns to the second wool feeding clip mouth 2.9 and the wool mouth 3.2; the second hair feeding nip 2.9 is used for guiding and fixing the stranded wire.

One end of the glue wire 2.1 is wound on the wire coil 2.6, and the other end is conveyed to the hair planting mechanism 3 through the wire passing guide mechanism 2.2, the first guide wheel 2.3, the second guide wheel 2.4, the first hair conveying clamping opening 2.8 and the second hair conveying clamping opening 2.9; the glue thread 2.1 is cut off by the thread cutting mechanism 2.7.

The wire passing guide mechanism 2.2 comprises a wire passing rod 2.21, a guide post 2.22, a guide groove 2.23 and a guide rod 2.24; the wire guide rod 2.21 is obliquely arranged, one end of the wire guide rod 2.21 is connected with the rubber wire rack 2.14, the guide post 2.22 is arranged at the other end of the wire guide rod 2.21, the guide post 2.22 is positioned at the lower end of the wire guide rod 2.21, a guide groove 2.23 is arranged in the guide post 2.22, a guide rod 2.24 is arranged in the guide groove 2.23 and can slide up and down in the guide groove 2.23, the top end of the guide rod 2.24 is connected with a first guide wheel 2.8, and photoelectric sensors are arranged on the first guide wheel 2.8 and a second guide wheel 2.9; the glue line frame 2.14 is fixed on the base 9;

as shown in fig. 1, 2 and 4, the hair planting mechanism 3 comprises a hair needle 3.1 and a hair nozzle 3.2, and the hair needle 3.1 is positioned above the hair nozzle 3.2; the thread cutting mechanism 2.7 and the cutter shell structure 1.8 are arranged between the hair needle 3.1 and the hair nozzle 3.2.

As shown in fig. 10 and 11, the hair 8 is planted in the hair planting hole 7.1 of the brush handle 7, and the stud is fixed in the middle fixing stud hole 7.12 of the hair planting hole 7.1; the wool 8 comprises a white strip 1.11 and a rubber silk strip 2.11; the white leather strip 1.11 is formed by cutting a white leather strip coil material 1.1 through a hair cutting part 1.4; the glue silk strip 2.11 is formed by cutting the glue silk 2.1 through a thread cutting mechanism 2.7.

As shown in fig. 24, a mechanical clutch 11 for controlling the white leather strip hair feeding mechanism 1, the glue silk hair feeding mechanism 2, the hair planting mechanism 3 and the drilling mechanism 10 to work is arranged on the device 12 adopting the white leather strip and glue silk one-hole two-planting drilling and hair planting process; the connecting end of the mechanical clutch 11 is respectively connected with the white strip hair feeding mechanism 1, the rubber filament hair feeding mechanism 2, the hair planting mechanism 3 and the drilling mechanism 10.

When the mechanical clutch 11 controls the white leather strip hair feeding mechanism 1, the rubber filament hair feeding mechanism 2, the hair planting mechanism 3 and the drilling mechanism 10 to work synchronously, the device 12 adopting the white leather strip and rubber filament one-hole two-hole drilling and hair planting process is adopted to synchronously carry out drilling and one-hole two-hair planting operations;

when the mechanical clutch 11 controls the white leather strip hair feeding mechanism 1, the hair planting mechanism 3 and the drilling mechanism 10 to work synchronously and the glue silk hair feeding mechanism 2 does not work, the device 12 for the two-hole planting, drilling and hair planting process of the white leather strip and the glue silk is adopted to carry out the hair planting operation of the white leather strip;

when the mechanical clutch 11 controls the synchronous work of the rubber filament hair feeding mechanism 2, the hair planting mechanism 3 and the drilling mechanism 10 and the non-work of the white leather strip hair feeding mechanism 1, the device 12 for the drilling and hair planting process is used for drilling and hair planting of the rubber filament by adopting the white leather strip and rubber filament one-hole two-planting device.

Example 2

The difference from example 1 is that: the glass brush handle of this example is set as follows: the hair planting holes of each hole are synchronously planted with 1.11 two white strips and 2.11 twenty glue silk strips.

Example 3

The difference from example 1 is that: the glass brush handle of this example is set as follows: synchronously planting 1.11 white strips and 2.11 glue silk strips in each hole; the P wool strip 2.11 is positioned at the inner core, and the white strip 1.11 is positioned at the periphery of the rubber silk strip 2.11; when the hair is planted synchronously, the glue silk strip 2.11 is positioned above the white strip 1.11.

Example 4

The difference from example 1 is that: the glass brush handle of this example is set as follows: and 1.11 white strips and 2.11 thirty plastic strips are synchronously planted in the hair planting holes of each hole.

Example 5

The difference from example 1 is that: the glass brush handle of this example is set as follows: and (3) independently planting a white strip 1.11 in each hole hair planting hole.

Example 6

The difference from example 1 is that: the glass brush handle of this example is set as follows: and each hole is independently provided with a glue-implanted silk strip 2.11.

Claims (10)

1. The two-hole drilling and hair planting process for the white leather strips and the rubber filaments is characterized by comprising the following steps of: the method specifically comprises the following steps:

the method comprises the following steps: a brush handle is arranged on the brush holder,

the two brush holders (7) are respectively arranged on two clamp panels (6.221), the workbench (6) moves transversely to drive one brush holder (7) to move below the first drilling mechanism (10), and the other brush holder (7) moves below the hair planting mechanism (3);

step two: drilling a hole, wherein the hole is drilled,

the first drilling mechanism (10) drills the brush handle (7) until the brush handle (7) is drilled;

step three: a brush handle (7) is moved,

the workbench (6) moves transversely to drive the brush holder (7) with holes to move below the hair planting mechanism (3), and the brush holder (7) without holes moves below the second hole drilling mechanism (10) synchronously;

step four: the hair-planting mechanism (3) plants hair and the drilling mechanism (10) drills holes synchronously,

the white leather strip wool feeding mechanism (1) and the glue silk wool feeding mechanism (2) synchronously feed wool to a wool nozzle of the wool planting mechanism (3);

the hair-planting mechanism (3) synchronously plants the white leather strips and the glue silk into the planting holes (7.1) on the brush holder (7) which is drilled, and meanwhile, the second drilling mechanism (10) drills holes on the brush holder (7) which is not drilled;

repeating the operations until the hair planting of one brush handle (7) is finished and the drilling of the other brush handle (7) is finished;

step five: the brush handle is replaced and the two hair planting holes are drilled synchronously,

taking out the brush holder (7) which is implanted with hair, and mounting the brush holder which is not drilled with holes on a clamp panel (6.221);

the workbench (6) moves transversely to drive the brush holder (7) with holes to move to the position below the hair planting mechanism (3), and the brush holder without holes to move to the position below the first hole drilling mechanism (10);

step six: repeating the first step to the fifth step until the hair planting and drilling work of one hole and two hairs of all brush handles is completed.

2. The white leather strip and glue silk one-hole two-planting drilling and hair planting process according to claim 1, which is characterized in that: the device adopting the white leather strip and glue silk one-hole two-planting drilling and hair-planting process is provided with a mechanical clutch (11) for controlling the white leather strip hair-feeding mechanism (1), the glue silk hair-feeding mechanism (2) and the hair-planting mechanism (3) to work; the connecting end of the mechanical clutch (11) is respectively connected with the white leather strip hair feeding mechanism (1), the glue silk hair feeding mechanism (2) and the hair planting mechanism (3).

3. The white leather strip and glue silk one-hole two-planting drilling and hair planting process according to claim 2, characterized in that: when the mechanical clutch (11) controls the white leather strip hair feeding mechanism (1), the glue silk hair feeding mechanism (2) and the hair planting mechanism (3) to work synchronously, the hair planting operation of two hairs in one hole is carried out synchronously;

when the mechanical clutch (11) controls the white leather strip hair feeding mechanism (1) and the hair planting mechanism (3) to work synchronously and the glue silk hair feeding mechanism (2) does not work, the hair planting operation of the white leather strips is carried out;

when the mechanical clutch (11) controls the glue silk hair feeding mechanism (2) and the hair planting mechanism (3) to work synchronously and the white leather strip hair feeding mechanism (1) does not work, the hair planting operation of the glue silk is carried out.

4. The white leather strip and glue silk one-hole two-planting drilling and hair planting process according to claim 3, characterized in that: the pore implantation holes (7.1) comprise an upper end pore implantation hole (7.11) and a middle part fixed horse nail hole (7.12); the upper end planting hole (7.11) is communicated with the middle fixing nail hole (7.12);

the drilling mechanism (10) comprises a first drill bit (10.1) for drilling an upper end planting hole (7.11) and a second drill bit (10.2) for drilling a middle fixing pin hole (7.12); the second drill (10.2) is located laterally to the first drill (10.1).

5. The white leather strip and glue silk one-hole two-planting drilling and hair planting process according to claim 4, characterized in that: the implantation hole (7.1) also comprises a lower end nail withdrawing hole (7.13); the upper end planting hole (7.11), the middle fixing nail hole (7.12) and the lower end nail withdrawing hole (7.13) are communicated to form a through hole structure;

the drilling mechanism (10) also comprises a third drill bit (10.3) for drilling a nail withdrawing hole (7.13) at the lower end; the first drill bit (10.1) is located above the third drill bit (10.3) and is the same as the centre line of the third drill bit (10.3); the second drill (10.2) is located laterally to the first drill (10.1) and laterally above the third drill (10.3).

6. The white leather strip and glue silk one-hole two-planting drilling and hair planting process according to claim 5, characterized in that: when the drilling and the hair planting operation of two hairs in one hole are synchronously carried out, the glue silk feeding mechanism (2) longitudinally feeds the glue silk into the hair planting mechanism (3), the white leather strip feeding mechanism (1) transversely feeds the white leather strip into the hair planting mechanism (3), and the white leather strip is positioned above the glue silk.

7. The device for the two-hole flocking process by using the white leather strips and the glue wires according to any one of the claims 1 to 6 comprises a flocking mechanism (3), a workbench (6), a base (9) and a drilling mechanism (10); the method is characterized in that: the fur-removing machine also comprises a white leather strip fur-feeding mechanism (1) and a glue silk fur-feeding mechanism (2); the white leather strip hair feeding mechanism (1) and the glue silk hair feeding mechanism (2) synchronously feed the white leather strips and the glue silks to the hair planting mechanism (3) for hair planting.

8. The device for the two-hole drilling and hair planting process by using the white leather strips and the glue wires according to claim 7 is characterized in that: the white leather strip wool feeding mechanism (1) comprises a white leather strip coiling material (1.1), a feeding part (1.2), a wool cutting part (1.4), a wool discharging part (1.7) and a knife shell structure (1.8);

the white strip coil material (1.1) is positioned above the feeding part (1.2) and is fed to the wool cutting part (1.4) through the feeding part (1.2) to be cut into a strip; the lower hair part (1.7) is positioned at the side of the hair cutting part (1.4) and above the knife shell structure (1.8);

the lower hair part (1.7) sends a coil strip to the knife shell structure (1.8); the cutter shell structure (1.8) transversely sends the coil stock strip to the hair planting mechanism (3) for hair planting.

9. The device for the two-hole drilling and hair planting process by using the white leather strips and the glue wires according to claim 8 is characterized in that: the hair cutting part (1.4) comprises a fixed knife (1.41) and a movable knife (1.42) which is movably connected with the fixed knife (1.41) in the transverse direction and used for cutting hair;

the lower wool part (1.7) comprises a lower wool groove (1.71) and a wool receiving groove structure (1.72) which is movably connected with the lower wool groove (1.71) in the longitudinal direction and is used for sending wool;

the knife shell structure (1.8) comprises a hair feeding knife shell (1.81) and a hair feeding knife (1.82) which is movably connected with the hair feeding knife shell (1.81) in the transverse direction and used for feeding hair.

10. The device for the two-hole drilling and hair planting process by using the white leather strips and the glue wires according to claim 9 is characterized in that: the glue wire wool feeding mechanism (2) comprises a glue wire (2.1), a thread passing guide mechanism (2.2), a first guide wheel (2.3), a second guide wheel (2.4), a main motor (2.5), a wire coil (2.6), a thread cutting mechanism (2.7), a first wool feeding clip opening (2.8) and a second wool feeding clip opening (2.9); the first guide wheel (2.1) is positioned below the side of the wire coil (2.6); the second guide wheel (2.2) is positioned above the first guide wheel (2.1);

the main motor (2.5) is connected with the mechanical clutch (11) through a belt;

one end of the glue wire (2.1) is wound on the wire coil (2.6), and the other end of the glue wire (2.1) is conveyed to the hair planting mechanism (3) through the wire passing guide mechanism (2.2), the first guide wheel (2.3), the second guide wheel (2.4), the first hair conveying clip opening (2.8) and the second hair conveying clip opening (2.9) in sequence; the glue thread (2.1) is cut off by the thread cutting mechanism (2.7).

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