CN110116936B - Metallic yarn wrapping machine and wrapping method - Google Patents

Abstract

The invention relates to a wrapping machine and a wrapping method, in particular to a filigree wrapping machine and a wrapping method, which comprise an integral bracket, a timing mechanism, a pushing rack, a swinging mechanism, an inclined cylinder I, an inclined cylinder II, a winding motor, a winding mechanism and a storage cylinder, wherein the sliding time of the pushing mechanism in a sliding waist hole can be controlled by controlling the rotating speed of the timing motor, the time of the swinging mechanism for replacing the storage cylinder is changed by changing the time of the pushing mechanism for contacting with a sliding plate I and a sliding plate II, and the time of the storage cylinder for winding the filigree; a method for wrapping metallic yarns can quickly and spirally wind the metallic yarns on a storage barrel, can control the quantity of the metallic yarns wrapped by the metallic yarns by controlling the length of a timing belt, and can finish replacing the storage barrel which is not wound.

Description

Metallic yarn wrapping machine and wrapping method

Technical Field

The invention relates to a wrapping machine and a wrapping method, in particular to a metallic yarn wrapping machine and a wrapping method.

Background

For example, the publication number CN205929732U discloses a conductive cloth hot-melting wrapping machine, which comprises a machine body, wherein a conductive cloth discharging mechanism, a hot-melting adhesive tape discharging mechanism, a preheating mechanism, an inclined piece stripper, a composite traction mechanism, a hot-melting wrapping mechanism, a pressing wheel, a discharging traction mechanism, a waste material winding mechanism and a control mechanism are arranged on the machine body, wherein the preheating mechanism comprises a first heating plate and a first heating plate bracket; the hot melting wrapping mechanism comprises a support plate, a pair of strip-shaped guide rails and a sandwich core, a second heating plate support is arranged in a position between two support legs of the support plate, and a second heating plate is arranged on the second heating plate support; the utility model discloses a shortcoming is that can not control the quantity of metallic yarn parcel through regularly.

Disclosure of Invention

The invention aims to provide a filigree wrapping machine and a wrapping method, which can control the wrapping quantity of the filigrees by controlling the length of timing, and complete quick wrapping of the filigrees and replacement of an unwounded containing barrel.

The purpose of the invention is realized by the following technical scheme:

a metallic yarn wrapping machine and a wrapping method comprise an integral support, a timing mechanism, a pushing rack, a swinging mechanism, a tilting cylinder I, a tilting cylinder II, a winding motor, a winding mechanism and a storage cylinder, wherein the timing mechanism comprises a timing motor, a timing rotating plate and a timing sliding column, the rotating speed of the timing motor is variable, the output shaft of the timing motor is fixedly connected with the timing rotating plate, one end of the timing rotating plate is fixedly connected with the timing sliding column, the timing motor is fixedly connected to the integral support, the pushing mechanism is connected to the integral support in a sliding mode, the timing sliding column is connected to the pushing mechanism in a sliding mode, the pushing rack is connected to the integral support in a sliding mode, the pushing mechanism pushes the pushing rack to slide on the integral support, the pushing rack is in meshing transmission with the swinging mechanism, the swinging mechanism is connected to the integral support in a rotating mode, the pushing rack drives the swinging mechanism to rotate, two winding motors of last fixedly connected with of swing mechanism, two slope section of thick bamboos of fixedly connected with I and two slope section of thick bamboos II on the swing mechanism, all form reciprocating groove between two slope section of thick bamboos I and two slope section of thick bamboos II, equal sliding connection has winding mechanism on two winding motors, and two winding mechanism's lower extreme sliding connection is at two reciprocating inslot respectively, and two winding mechanism are gone up all to overlap and are equipped with the receiver.

As a further optimization of the technical scheme, the integral support comprises a bottom plate, side supporting plates, vertical waist holes, supporting plates, rotating supporting plates and sliding waist holes, wherein two of the bottom plate at one end are fixedly connected with the side supporting plates, the two side supporting plates are respectively provided with the vertical waist holes, the bottom plate is fixedly connected with the supporting plates, the supporting plates are fixedly connected with the rotating supporting plates, and the supporting plates are respectively provided with the sliding waist holes.

As a further optimization of the technical scheme, the bullion wrapping machine comprises a pushing bottom plate, pushing waist holes, pushing blocks and sliding grooves, wherein the pushing bottom plate is provided with the pushing waist holes, the pushing bottom plate is fixedly connected with the two pushing blocks, the two pushing blocks are respectively provided with the sliding grooves, the two pushing blocks are respectively connected in the sliding waist holes in a sliding manner, a supporting plate is clamped between the two sliding grooves, and a timing sliding column is connected in the pushing bottom plate in a sliding manner.

According to the further optimization of the technical scheme, the pushing rack comprises a rack, a sliding plate I and a sliding plate II, the two ends of the rack are fixedly connected with the sliding plate I and the sliding plate II respectively, the sliding plate I and the sliding plate II are connected in the sliding waist hole in a sliding mode, and the sliding plate I and the sliding plate II are located on the two sides of the sliding waist hole respectively.

As a further optimization of the technical scheme, the gold and silver wire wrapping machine comprises a swinging mechanism, a swinging plate and a swinging gear, wherein the swinging mechanism comprises a swinging shaft, the swinging plate and the swinging gear, the swinging shaft is rotatably connected to a rotating support plate, the swinging plate and the swinging gear are fixedly connected to the swinging shaft, the swinging gear and a rack are in meshing transmission, two ends of the upper side of the swinging plate are fixedly connected with an inclined cylinder I and an inclined cylinder II, the difference between the two inclined cylinders I is 180 degrees, and the difference between the two inclined cylinders II is 180 degrees.

According to the metallic yarn wrapping machine, the winding motor comprises a winding motor body and a connecting key, the two ends of the lower side of the swinging plate are fixedly connected with the winding motor body, and the output shafts of the two winding motor bodies are fixedly connected with the connecting key.

As a further optimization of the technical scheme, the invention relates to a filigree wrapping machine, which comprises a winding mechanism, wherein the winding mechanism comprises a winding barrel, a winding baffle ring I, a winding baffle ring II, a sliding boss I, a sliding boss II, a sliding post I, a sliding post II, a connecting rod I, a connecting rod II and a reciprocating sliding post, the upper end and the lower end of the winding barrel are respectively and fixedly connected with the winding baffle ring II and the winding baffle ring I, the winding baffle ring I is circumferentially and uniformly and fixedly connected with three sliding bosses I, the three sliding bosses I are respectively and slidably connected with the sliding post I, pressure-equalizing springs I are arranged between the three sliding posts I and the three sliding bosses I, the lower side of the winding baffle ring II is circumferentially and uniformly and fixedly connected with three sliding bosses II, the three sliding bosses II are respectively and slidably connected with the sliding posts II, and compression springs II are respectively arranged between the three sliding posts II and the three, the upper end of three slip post I all articulates there is connecting rod I, the upper end of three connecting rod I all articulates there is connecting rod II, the upper end of three connecting rod II articulates respectively on three slip post II, winding mechanism is provided with two, it differs 180 between two winding mechanisms, two winding barrels are sliding connection respectively on two connecting keys, the equal fixedly connected with reciprocal slip post of lower extreme of two winding fender ring I, two reciprocal slip posts are sliding connection respectively at two reciprocal inslots that form between two slope barrels I and two slope barrels II, the storage barrel is provided with two, two storage barrels are the suit respectively on two winding barrels, the inboard at the storage barrel that corresponds is pushed up respectively in the outside of three connecting rod I and three connecting rod II, all there is set screw through threaded connection on two storage barrels.

As further optimization of the technical scheme, the invention relates to a filigree wrapping machine which further comprises a cutting knife I, a cutting knife II and a positioning mechanism, wherein the positioning mechanism comprises two positioning sliding columns, two positioning wheels and two positioning baffle plates, the inner ends of the two positioning sliding columns are rotatably connected with the positioning wheels, the two positioning sliding columns are fixedly connected with the positioning baffle plates, the outer sides of the two positioning sliding columns are respectively and slidably connected onto the two side supporting plates, the two positioning sliding columns are respectively sleeved with a compression spring III, the compression spring III is positioned between the side supporting plates and the positioning baffle plates, the two ends of the cutting knife I and the two ends of the cutting knife II are respectively and slidably connected into two vertical waist holes, and a compression spring IV is arranged between the cutting knife I and the cutting knife II.

A method for wrapping metallic yarns is characterized in that: the method comprises the following steps:

the method comprises the following steps: adjusting the rotation speed of a timing motor, changing the reciprocating sliding time of the timing motor for pushing a pushing mechanism in a sliding waist hole, and respectively pushing a sliding plate I when the pushing mechanism slides to one side of the sliding waist hole;

step two: when the sliding plate I is pushed, the swinging mechanism is driven to rotate 180 degrees, the swinging mechanism drives the inclined cylinder I, the inclined cylinder II, the winding motor, the winding mechanism and the storage cylinder to rotate 180 degrees, and the storage cylinder is replaced;

step three: quickly hanging the metallic yarns on the positioning screws to start corresponding winding motors, and spirally winding the metallic yarns on corresponding storage barrels by the winding motors;

step four: the pushing mechanism slides the other side of the sliding waist hole to push the sliding plate II, the sliding plate II drives the swinging mechanism to rotate 180 degrees when pushed, the swinging mechanism drives the inclined cylinder I, the inclined cylinder II, the winding motor, the winding mechanism and the storage cylinder to rotate 180 degrees, and replacement of the storage cylinder is completed;

step five: when changing the containing barrel, the bullion is cut off to extrusion cutting knife I and cutting knife II, takes off the containing barrel that the cladding was accomplished.

The metallic yarn wrapping machine and the wrapping method have the beneficial effects that:

according to the filigree wrapping machine, the sliding time of the pushing mechanism in the sliding waist hole can be controlled by controlling the rotating speed of the timing motor, the time for the swinging mechanism to replace the storage barrel is changed by changing the time for the pushing mechanism to contact the sliding plate I and the sliding plate II, and the time for the storage barrel to wind the filigree is controlled.

According to the method for wrapping the metallic yarns, the metallic yarns can be quickly and spirally wound on the storage barrel, the wrapping quantity of the metallic yarns can be controlled by controlling the length of the timing belt, and the storage barrel which is not wound is replaced.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic view of the overall structure of the metallic yarn wrapping machine of the present invention;

FIG. 2 is a schematic view of the overall stent structure of the present invention;

FIG. 3 is a schematic view of the timing mechanism of the present invention;

FIG. 4 is a schematic view of the pushing mechanism of the present invention;

FIG. 5 is a schematic view of the push rack construction of the present invention;

FIG. 6 is a schematic view of the swing mechanism of the present invention;

FIG. 7 is a schematic view of the construction of the tilting cylinder I of the present invention;

FIG. 8 is a schematic structural view of a tilting cylinder II of the present invention;

FIG. 9 is a schematic view of the winding motor configuration of the present invention;

FIG. 10 is a schematic view of the winding mechanism of the present invention;

FIG. 11 is a schematic view of the receiver of the present invention;

FIG. 12 is a schematic view of the structure of a cutting knife I of the present invention;

FIG. 13 is a schematic view of the cutting knife II of the present invention;

fig. 14 is a schematic structural view of the positioning mechanism of the present invention.

In the figure: an integral support 1; a bottom plate 1-1; 1-2 side supporting plates; 1-3 of vertical waist holes; support plates 1-4; rotating the support plate 1-5; 1-6 of a sliding waist hole; a timing mechanism 2; a timing motor 2-1; a timing rotating plate 2-2; a timing sliding column 2-3; a pushing mechanism 3; pushing the bottom plate 3-1; pushing the waist hole 3-2; 3-3 of a pushing block; 3-4 of a sliding groove; pushing the rack 4; a rack 4-1; a sliding plate I4-2; a sliding plate II 4-3; a swing mechanism 5; an oscillating shaft 5-1; a swing plate 5-2; 5-3 of a swing gear; an inclined cylinder I6; an inclined cylinder II 7; winding the motor 8; winding the motor body 8-1; a connecting bond 8-2; a winding mechanism 9; a winding drum 9-1; winding a baffle ring I9-2; winding a baffle ring II 9-3; a sliding boss I9-4; 9-5 of a sliding boss II; 9-6 parts of a sliding column I; a sliding column II 9-7; 9-8 parts of a connecting rod I; a connecting rod II 9-9; 9-10 of reciprocating sliding columns; a storage cylinder 10; a set screw 10-1; a cutting knife I11; a cutting knife II 12; a positioning mechanism 13; positioning the sliding column 13-1; positioning wheels 13-2; the baffle 13-3 is positioned.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 14, and a filigree wrapping machine comprises an integral support 1, a timing mechanism 2, a pushing mechanism 3, a pushing rack 4, a swinging mechanism 5, an inclined cylinder i 6, an inclined cylinder ii 7, a winding motor 8, a winding mechanism 9 and a receiving cylinder 10, wherein the timing mechanism 2 comprises a timing motor 2-1, a timing rotating plate 2-2 and a timing sliding column 2-3, the rotating speed of the timing motor 2-1 is variable, the output shaft of the timing motor 2-1 is fixedly connected with the timing rotating plate 2-2, one end of the timing rotating plate 2-2 is fixedly connected with the timing sliding column 2-3, the timing motor 2-1 is fixedly connected to the integral support 1, the pushing mechanism 3 is slidably connected to the integral support 1, the timing sliding column 2-3 is slidably connected to the pushing mechanism 3, the pushing rack 4 is connected to the integral support 1 in a sliding mode, the pushing mechanism 3 pushes the pushing rack 4 to slide on the integral support 1, the pushing rack 4 and the swinging mechanism 5 are in meshed transmission, the swinging mechanism 5 is connected to the integral support 1 in a rotating mode, the pushing rack 4 is pushed by the pushing mechanism 3 to slide and drive the swinging mechanism 5 to rotate 180 degrees, the swinging mechanism 5 is fixedly connected with two winding motors 8, the swinging mechanism 5 is fixedly connected with two inclined cylinders I6 and two inclined cylinders II 7, reciprocating grooves are formed between the two inclined cylinders I6 and the two inclined cylinders II 7, the two winding motors 8 are respectively connected with winding mechanisms 9 in a sliding mode, the lower ends of the two winding mechanisms 9 are respectively connected to the two reciprocating grooves in a sliding mode, and the two winding mechanisms 9 are respectively sleeved with a storage cylinder 10; the sliding time of the pushing mechanism 3 in the sliding waist holes 1-6 can be controlled by controlling the rotating speed of the timing motor 2-1, the time of replacing the storage barrel 10 by the swinging mechanism 5 is changed by changing the time of contacting the pushing mechanism 3 with the sliding plate I4-2 and the sliding plate II 4-3, and the time of winding the metallic yarns by the storage barrel 10 is controlled; the change in the rotational speed of timing motor 2-1 may be accomplished using a frequency converter, the timing motor 2-1 may be accomplished using an ac motor, a frequency converter that changes the frequency of the current to change the rotational speed of timing motor 2-1, or other means of changing the rotational speed of timing motor 2-1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 14, and the embodiment further describes the first embodiment, the integral support 1 includes a bottom plate 1-1, side support plates 1-2, vertical waist holes 1-3, support plates 1-4, rotating support plates 1-5 and sliding waist holes 1-6, two of one end of the bottom plate 1-1 are fixedly connected with the side support plates 1-2, two of the side support plates 1-2 are respectively provided with the vertical waist holes 1-3, the bottom plate 1-1 is fixedly connected with the support plates 1-4, the support plates 1-4 are fixedly connected with the rotating support plates 1-5, and the support plates 1-4 are provided with the sliding waist holes 1-6.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-14, and the embodiment further describes the second embodiment, where the pushing mechanism 3 includes a pushing bottom plate 3-1, a pushing waist hole 3-2, a pushing block 3-3 and a sliding groove 3-4, the pushing bottom plate 3-1 is provided with the pushing waist hole 3-2, the pushing bottom plate 3-1 is fixedly connected with two pushing blocks 3-3, the two pushing blocks 3-3 are both provided with the sliding groove 3-4, the two pushing blocks 3-3 are both slidably connected in the sliding waist holes 1-6, the supporting plate 1-4 is clamped between the two sliding grooves 3-4, and the timing sliding column 2-3 is slidably connected in the pushing bottom plate 3-1; when the timing motor 2-1 is started to use, the output shaft of the timing motor 2-1 starts to rotate, the output shaft of the timing motor 2-1 drives the timing rotating plate 2-2 to rotate by taking the axis of the output shaft of the timing motor 2-1 as the center, the timing rotating plate 2-2 drives the timing sliding column 2-3 to rotate by taking the axis of the output shaft of the timing motor 2-1 as the center, the timing sliding column 2-3 slides in the pushing waist hole 3-2, the pushing bottom plate 3-1 slides in the direction of the sliding waist hole 1-6 under the limit of the two sliding grooves 3-4, and the pushing bottom plate 3-1 drives the two pushing blocks 3-3 to slide in the sliding waist holes 1-6.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1 to 14, wherein the pushing rack 4 includes a rack 4-1, a sliding plate i 4-2 and a sliding plate ii 4-3, two ends of the rack 4-1 are fixedly connected with the sliding plate i 4-2 and the sliding plate ii 4-3 respectively, the sliding plate i 4-2 and the sliding plate ii 4-3 are slidably connected in the sliding kidney holes 1-6, and the sliding plate i 4-2 and the sliding plate ii 4-3 are located at two sides of the sliding kidney holes 1-6 respectively; when the pushing block 3-3 slides in the sliding waist hole 1-6 for a certain time, the pushing block 3-3 pushes the sliding plate I4-2 at one side to move, the sliding plate I4-2 drives the pushing rack 4 to slide in the sliding waist hole 1-6, the pushing block 3-3 starts to slide towards the sliding plate II 4-3 side when moving to the limit position at one side of the sliding plate I4-2, the distance of the sliding plate I4-2 pushed to slide is half of the circumference of the oscillating gear 5-3, the oscillating gear 5-3 is ensured to rotate half a circle when being pushed to rotate by the pushing rack 4, the pushing block 3-3 starts to slide towards the sliding plate I4-2 side when moving to the limit position at one side of the sliding plate II 4-3, and the pushing block 3-3 slides in the sliding waist hole 1-6 in a reciprocating manner, the distance for the sliding plate II 4-3 to be pushed to slide is half of the circumference of the swing gear 5-3, so that the swing gear 5-3 is enabled to rotate for half a circle when being pushed to rotate by the pushing rack 4.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 14, and the fourth embodiment is further described in the present embodiment, where the swing mechanism 5 includes a swing shaft 5-1, a swing plate 5-2, and a swing gear 5-3, the swing shaft 5-1 is rotatably connected to a rotating support plate 1-5, the swing shaft 5-1 is fixedly connected to the swing plate 5-2 and the swing gear 5-3, the swing gear 5-3 is in meshing transmission with a rack 4-1, two ends of the upper side of the swing plate 5-2 are fixedly connected to an inclined cylinder i 6 and an inclined cylinder ii 7, a difference between the two inclined cylinders i 6 is 180 °, and a difference between the two inclined cylinders ii 7 is 180 °; when the sliding plate I4-2 is pushed, the swinging mechanism 5 is driven to rotate 180 degrees, the swinging mechanism 5 drives the inclined cylinder I6, the inclined cylinder II 7, the winding motor 8, the winding mechanism 9 and the storage cylinder 10 to rotate 180 degrees, and replacement of the storage cylinder 10 is completed.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1 to 14, and the fifth embodiment is further described in the present embodiment, where the winding motor 8 includes a winding motor body 8-1 and a connection key 8-2, both ends of the lower side of the swing plate 5-2 are fixedly connected with the winding motor body 8-1, and output shafts of both winding motor bodies 8-1 are fixedly connected with the connection key 8-2; when the pushing block 3-3 is started to slide from one side to the other side in the reverse direction, the metallic yarns are hung on the positioning screws 10-1, the positioning screws 10-1 can be rotated to change the extending length of the positioning screws 10-1 on the storage barrel 10, so that the positioning screws 10-1 can be suitable for metallic yarns with different diameters, the winding motor body 8-1 is started, the output shaft of the winding motor body 8-1 starts to rotate, and the output shaft of the winding motor body 8-1 drives the connecting key 8-2 to rotate by taking the axis of the output shaft of the winding motor body 8-1 as the center.

The seventh embodiment:

the embodiment is described below with reference to fig. 1-14, and the sixth embodiment is further described, wherein the winding mechanism 9 comprises a winding cylinder 9-1, a winding baffle ring i 9-2, a winding baffle ring ii 9-3, a sliding boss i 9-4, a sliding boss ii 9-5, a sliding column i 9-6, a sliding column ii 9-7, a connecting rod i 9-8, a connecting rod ii 9-9 and a reciprocating sliding column 9-10, the upper end and the lower end of the winding cylinder 9-1 are respectively fixedly connected with the winding baffle ring ii 9-3 and the winding baffle ring i 9-2, the winding baffle ring i 9-2 is circumferentially and uniformly and fixedly connected with three sliding bosses i 9-4, the three sliding bosses i 9-4 are respectively and slidably connected with the sliding columns i 9-6, a compression spring I is arranged between three sliding columns I9-6 and three sliding bosses I9-4, the lower side of a winding retaining ring II 9-3 is uniformly and fixedly connected with three sliding bosses II 9-5 in the circumferential direction, the three sliding bosses II 9-5 are all connected with sliding columns II 9-7 in a sliding manner, compression springs II are arranged between the three sliding columns II 9-7 and the three sliding bosses II 9-5, the upper ends of the three sliding columns I9-6 are all hinged with connecting rods I9-8, the upper ends of the three connecting rods I9-8 are all hinged with connecting rods II 9-9, the upper ends of the three connecting rods II 9-9 are respectively hinged on the three sliding columns II 9-7, two winding mechanisms 9 are arranged, the difference between the two winding mechanisms 9 is 180 degrees, and the two winding cylinders 9-1 are respectively connected on two connecting keys 8-2 in a sliding manner, the lower ends of the two winding baffle rings I9-2 are fixedly connected with reciprocating sliding columns 9-10, the two reciprocating sliding columns 9-10 are respectively connected in two reciprocating grooves formed between the two inclined cylinders I6 and the two inclined cylinders II 7 in a sliding mode, the number of the storage cylinders 10 is two, the two storage cylinders 10 are respectively sleeved on the two winding cylinders 9-1, the outer sides of the three connecting rods I9-8 and the three connecting rods II 9-9 are respectively propped against the inner sides of the corresponding storage cylinders 10, and the two storage cylinders 10 are both connected with positioning screws 10-1 through threads; the connecting key 8-2 drives the winding cylinder 9-1 to rotate by taking the axis of the output shaft of the winding motor body 8-1 as the center, the winding cylinder 9-1 drives the winding mechanism 9 to rotate by taking the axis of the output shaft of the winding motor body 8-1 as the center, two storage cylinders 10 are respectively sleeved on the two winding cylinders 9-1, the outer sides of three connecting rods I9-8 and three connecting rods II 9-9 are respectively propped against the inner sides of the corresponding storage cylinders 10, the winding mechanism 9 drives the corresponding storage cylinders 10 to rotate by taking the axis of the output shaft of the winding motor body 8-1 as the center, reciprocating sliding columns 9-10 arranged on the winding mechanism 9 slide in reciprocating grooves formed between the inclined cylinders I6 and II 7, the inclined cylinders I6 and II 7 push the reciprocating sliding columns 9-10 to reciprocate up and down, the winding mechanism 9 is pushed by the double sliding columns 9-10 to reciprocate up and down, the winding mechanism 9 drives the storage barrel 10 to reciprocate up and down, and the storage barrel 10 reciprocates up and down while rotating to spirally and repeatedly store the metallic yarns.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1 to 14, and the seventh embodiment is further described in the present embodiment, the filigree wrapping machine further includes a cutting knife i 11, a cutting knife ii 12 and a positioning mechanism 13, the positioning mechanism 13 includes two positioning sliding columns 13-1, positioning wheels 13-2 and positioning baffles 13-3, the positioning mechanism 13 is provided with two positioning sliding columns 13-1, the inner ends of the two positioning sliding columns 13-1 are rotatably connected with the positioning wheels 13-2, the two positioning sliding columns 13-1 are fixedly connected with the positioning baffles 13-3, the outer sides of the two positioning sliding columns 13-1 are respectively slidably connected to the two side supporting plates 1-2, the two positioning sliding columns 13-1 are respectively sleeved with a compression spring iii, the compression spring iii is located between the side supporting plates 1-2 and the positioning baffles 13-3, two ends of the cutting knife I11 and the cutting knife II 12 are respectively connected in the two vertical waist holes 1-3 in a sliding mode, and a compression spring IV is arranged between the cutting knife I11 and the cutting knife II 12; the metallic yarns penetrate through the two positioning wheels 13-2, the two positioning wheels 13-2 position the metallic yarns, and the metallic yarns penetrate through the space between the cutting knife I11 and the cutting knife II 12 and are wound on the storage barrel 10.

A method for wrapping metallic yarns is characterized in that: the method comprises the following steps:

the method comprises the following steps: adjusting the rotation speed of a timing motor 2-1, changing the reciprocating sliding time of the timing motor 2-1 for pushing a pushing mechanism 3 in a sliding waist hole 1-6, and pushing a sliding plate I4-2 respectively when the pushing mechanism 3 slides to one side of the sliding waist hole 1-6;

step two: when the sliding plate I4-2 is pushed, the swinging mechanism 5 is driven to rotate 180 degrees, the swinging mechanism 5 drives the inclined cylinder I6, the inclined cylinder II 7, the winding motor 8, the winding mechanism 9 and the storage cylinder 10 to rotate 180 degrees, and the storage cylinder 10 is replaced;

step three: the metallic yarns are quickly hung on the positioning screws 10-1, corresponding winding motors 8 are started, and the metallic yarns are spirally wound on the corresponding storage barrels 10 by the winding motors 8;

step four: the pushing mechanism 3 slides the other side of the sliding waist hole 1-6 to push the sliding plate II 4-3, the sliding plate II 4-3 drives the swinging mechanism 5 to rotate 180 degrees when pushed, the swinging mechanism 5 drives the inclined cylinder I6, the inclined cylinder II 7, the winding motor 8, the winding mechanism 9 and the storage cylinder 10 to rotate 180 degrees, and the storage cylinder 10 is replaced;

step five: when changing containing cylinder 10, extrusion cutting knife I11 and cutting knife II 12 cut off the purl, take off the containing cylinder 10 that the cladding was accomplished.

The invention relates to a metallic yarn wrapping machine and a wrapping method, and the working principle is as follows:

when the timing motor 2-1 is started, the output shaft of the timing motor 2-1 starts to rotate, the output shaft of the timing motor 2-1 drives the timing rotating plate 2-2 to rotate by taking the axis of the output shaft of the timing motor 2-1 as the center, the timing rotating plate 2-2 drives the timing sliding column 2-3 to rotate by taking the axis of the output shaft of the timing motor 2-1 as the center, the timing sliding column 2-3 slides in the pushing waist hole 3-2, the pushing bottom plate 3-1 slides in the direction of the sliding waist hole 1-6 under the limit of the two sliding grooves 3-4, and the pushing bottom plate 3-1 drives the two pushing blocks 3-3 to slide in the sliding waist holes 1-6; the change of the rotation speed of the timing motor 2-1 can use a frequency converter, the timing motor 2-1 can use an alternating current motor, the frequency converter changes the frequency of current so as to change the rotation speed of the timing motor 2-1, or other methods for changing the rotation speed of the timing motor 2-1; when the pushing block 3-3 slides in the sliding waist hole 1-6 for a certain time, the pushing block 3-3 pushes the sliding plate I4-2 at one side to move, the sliding plate I4-2 drives the pushing rack 4 to slide in the sliding waist hole 1-6, the pushing block 3-3 starts to slide towards the sliding plate II 4-3 side when moving to the limit position at one side of the sliding plate I4-2, the distance of the sliding plate I4-2 pushed to slide is half of the circumference of the oscillating gear 5-3, the oscillating gear 5-3 is ensured to rotate half a circle when being pushed to rotate by the pushing rack 4, the pushing block 3-3 starts to slide towards the sliding plate I4-2 side when moving to the limit position at one side of the sliding plate II 4-3, and the pushing block 3-3 slides in the sliding waist hole 1-6 in a reciprocating manner, the distance for the sliding plate II 4-3 to be pushed to slide is half of the circumference of the oscillating gear 5-3, so that the oscillating gear 5-3 is enabled to rotate for half a circle when being pushed to rotate by the pushing rack 4; when the sliding plate I4-2 is pushed, the swinging mechanism 5 is driven to rotate 180 degrees, the swinging mechanism 5 drives the inclined cylinder I6, the inclined cylinder II 7, the winding motor 8, the winding mechanism 9 and the storage cylinder 10 to rotate 180 degrees, and the storage cylinder 10 is replaced; when the pushing block 3-3 is started to slide from one side to the other side in a reverse direction, the metallic yarns are hung on the positioning screws 10-1, the positioning screws 10-1 can be rotated to change the extending length of the positioning screws 10-1 on the storage barrel 10, so that the positioning screws 10-1 can be suitable for the metallic yarns with different diameters, the winding motor body 8-1 is started, the output shaft of the winding motor body 8-1 starts to rotate, and the output shaft of the winding motor body 8-1 drives the connecting key 8-2 to rotate by taking the axis of the output shaft of the winding motor body 8-1 as the center; the connecting key 8-2 drives the winding cylinder 9-1 to rotate by taking the axis of the output shaft of the winding motor body 8-1 as the center, the winding cylinder 9-1 drives the winding mechanism 9 to rotate by taking the axis of the output shaft of the winding motor body 8-1 as the center, two storage cylinders 10 are respectively sleeved on the two winding cylinders 9-1, the outer sides of three connecting rods I9-8 and three connecting rods II 9-9 are respectively propped against the inner sides of the corresponding storage cylinders 10, the winding mechanism 9 drives the corresponding storage cylinders 10 to rotate by taking the axis of the output shaft of the winding motor body 8-1 as the center, reciprocating sliding columns 9-10 arranged on the winding mechanism 9 slide in reciprocating grooves formed between the inclined cylinders I6 and II 7, the inclined cylinders I6 and II 7 push the reciprocating sliding columns 9-10 to reciprocate up and down, the winding mechanism 9 is pushed by the double sliding columns 9-10 to reciprocate up and down, the winding mechanism 9 drives the storage barrel 10 to reciprocate up and down, and the storage barrel 10 reciprocates up and down while rotating to spirally and repeatedly store the metallic yarns; when changing containing cylinder 10, extrusion cutting knife I11 and cutting knife II 12 cut off the purl, take off the containing cylinder 10 that the cladding was accomplished.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a metallic yarn parcel machine, includes monolith support (1), timing mechanism (2), pushing mechanism (3), promotes rack (4), swing mechanism (5), a slope section of thick bamboo I (6), a slope section of thick bamboo II (7), winding motor (8), winding mechanism (9) and storage cylinder (10), its characterized in that: the timing mechanism (2) comprises a timing motor (2-1), a timing rotating plate (2-2) and a timing sliding column (2-3), the rotating speed of the timing motor (2-1) is variable, the timing rotating plate (2-2) is fixedly connected to an output shaft of the timing motor (2-1), one end of the timing rotating plate (2-2) is fixedly connected with the timing sliding column (2-3), the timing motor (2-1) is fixedly connected to the integral support (1), the pushing mechanism (3) is slidably connected to the integral support (1), the timing sliding column (2-3) is slidably connected to the pushing mechanism (3), the pushing rack (4) is slidably connected to the integral support (1), the pushing mechanism (3) pushes the pushing rack (4) to slide on the integral support (1), the pushing rack (4) is meshed with the swinging mechanism (5) for transmission, the swing mechanism (5) is rotationally connected to the integral support (1), the push rack (4) is pushed by the push mechanism (3) to slide to drive the swing mechanism (5) to rotate 180 degrees, the swing mechanism (5) is fixedly connected with two winding motors (8), the swing mechanism (5) is fixedly connected with two inclined cylinders I (6) and two inclined cylinders II (7), reciprocating grooves are formed between the two inclined cylinders I (6) and the two inclined cylinders II (7), the two winding motors (8) are respectively and slidably connected with winding mechanisms (9), the lower ends of the two winding mechanisms (9) are respectively and slidably connected into the two reciprocating grooves, and the two winding mechanisms (9) are respectively sleeved with a storage cylinder (10);

the integral support (1) comprises a bottom plate (1-1), side supporting plates (1-2), vertical waist holes (1-3), supporting plates (1-4), rotating supporting plates (1-5) and sliding waist holes (1-6), wherein two of one end of the bottom plate (1-1) are fixedly connected with the side supporting plates (1-2), the two side supporting plates (1-2) are respectively provided with the vertical waist holes (1-3), the bottom plate (1-1) is fixedly connected with the supporting plates (1-4), the supporting plates (1-4) are fixedly connected with the rotating supporting plates (1-5), and the supporting plates (1-4) are provided with the sliding waist holes (1-6);

the pushing mechanism (3) comprises a pushing bottom plate (3-1), a pushing waist hole (3-2), pushing blocks (3-3) and sliding grooves (3-4), the pushing bottom plate (3-1) is provided with the pushing waist hole (3-2), the pushing bottom plate (3-1) is fixedly connected with the two pushing blocks (3-3), the two pushing blocks (3-3) are respectively provided with the sliding grooves (3-4), the two pushing blocks (3-3) are respectively connected in the sliding waist holes (1-6) in a sliding manner, the supporting plate (1-4) is clamped between the two sliding grooves (3-4), and the timing sliding column (2-3) is connected in the pushing bottom plate (3-1) in a sliding manner;

the pushing rack (4) comprises a rack (4-1), a sliding plate I (4-2) and a sliding plate II (4-3), two ends of the rack (4-1) are fixedly connected with the sliding plate I (4-2) and the sliding plate II (4-3) respectively, the sliding plate I (4-2) and the sliding plate II (4-3) are connected in the sliding kidney holes (1-6) in a sliding mode, and the sliding plate I (4-2) and the sliding plate II (4-3) are located on two sides of the sliding kidney holes (1-6) respectively;

the swing mechanism (5) comprises a swing shaft (5-1), a swing plate (5-2) and a swing gear (5-3), the swing shaft (5-1) is rotatably connected to the rotating support plate (1-5), the swing plate (5-2) and the swing gear (5-3) are fixedly connected to the swing shaft (5-1), the swing gear (5-3) and a rack (4-1) are in meshed transmission, two ends of the upper side of the swing plate (5-2) are fixedly connected with an inclined cylinder I (6) and an inclined cylinder II (7), the phase difference between the two inclined cylinders I (6) is 180 degrees, and the phase difference between the two inclined cylinders II (7) is 180 degrees.

2. The metallic yarn wrapping machine of claim 1, wherein: the winding motor (8) comprises a winding motor body (8-1) and a connecting key (8-2), the two ends of the lower side of the swinging plate (5-2) are fixedly connected with the winding motor body (8-1), and the output shafts of the two winding motor bodies (8-1) are fixedly connected with the connecting key (8-2).

3. The filigree wrapping machine according to claim 2, wherein: the winding mechanism (9) comprises a winding mechanism (9) which comprises a winding cylinder (9-1), a winding retaining ring I (9-2), a winding retaining ring II (9-3), a sliding boss I (9-4), a sliding boss II (9-5), a sliding column I (9-6), a sliding column II (9-7), a connecting rod I (9-8), a connecting rod II (9-9) and a reciprocating sliding column (9-10), wherein the upper end and the lower end of the winding cylinder (9-1) are respectively and fixedly connected with the winding retaining ring II (9-3) and the winding retaining ring I (9-2), the winding retaining ring I (9-2) is circumferentially and uniformly and fixedly connected with three sliding bosses I (9-4), and the three sliding bosses I (9-4) are respectively and slidably connected with the sliding column I (9-6), a pressure-equalizing compression spring I is arranged between the three sliding columns I (9-6) and the three sliding bosses I (9-4), the lower side of the winding retaining ring II (9-3) is circumferentially and uniformly and fixedly connected with three sliding bosses II (9-5), the three sliding bosses II (9-5) are respectively and slidably connected with sliding columns II (9-7), compression springs II are arranged between the three sliding columns II (9-7) and the three sliding bosses II (9-5), the upper ends of the three sliding columns I (9-6) are respectively hinged with a connecting rod I (9-8), the upper ends of the three connecting rods I (9-8) are respectively hinged with a connecting rod II (9-9), the upper ends of the three connecting rods II (9-9) are respectively hinged with the three sliding columns II (9-7), two winding mechanisms (9) are arranged, the difference between the two winding mechanisms (9) is 180 degrees, the two winding cylinders (9-1) are respectively connected onto the two connecting keys (8-2) in a sliding manner, the lower ends of the two winding baffle rings I (9-2) are fixedly connected with reciprocating sliding columns (9-10), the two reciprocating sliding columns (9-10) are respectively connected into two reciprocating grooves formed between the two inclined cylinders I (6) and the two inclined cylinders II (7) in a sliding manner, the number of the storage cylinders (10) is two, the two storage cylinders (10) are respectively sleeved on the two winding cylinders (9-1), the outer sides of the three connecting rods I (9-8) and the three connecting rods II (9-9) are respectively propped against the inner sides of the corresponding storage cylinders (10), and the two storage cylinders (10) are respectively connected with positioning screws (10-1) through threads.

4. The filigree wrapping machine according to claim 3, wherein: the purl wrapping machine further comprises a cutting knife I (11), a cutting knife II (12) and a positioning mechanism (13), wherein the positioning mechanism (13) comprises positioning sliding columns (13-1), positioning wheels (13-2) and positioning baffle plates (13-3), the number of the positioning mechanism (13) is two, the inner ends of the two positioning sliding columns (13-1) are rotatably connected with the positioning wheels (13-2), the two positioning sliding columns (13-1) are fixedly connected with the positioning baffle plates (13-3), the outer sides of the two positioning sliding columns (13-1) are respectively connected onto the two side supporting plates (1-2) in a sliding mode, compression springs III are sleeved on the two positioning sliding columns (13-1) and located between the side supporting plates (1-2) and the positioning baffle plates (13-3), the two ends of the cutting knife I (11) and the two ends of the cutting knife II (12) are respectively connected onto the two vertical waist holes (1-1) in a sliding mode And in the-3), a compression spring IV is arranged between the cutting knife I (11) and the cutting knife II (12).

5. The method for wrapping the metallic yarns by using the metallic yarn wrapping machine of claim 4 is characterized in that: the method comprises the following steps:

the method comprises the following steps: adjusting the rotation speed of the timing motor (2-1), changing the reciprocating sliding time of the timing motor (2-1) for pushing the pushing mechanism (3) in the sliding waist holes (1-6), and pushing the sliding plates I (4-2) respectively when the pushing mechanism (3) slides to one side of the sliding waist holes (1-6);

step two: when the sliding plate I (4-2) is pushed, the swinging mechanism (5) is driven to rotate 180 degrees, the swinging mechanism (5) drives the inclined cylinder I (6), the inclined cylinder II (7), the winding motor (8), the winding mechanism (9) and the storage cylinder (10) to rotate 180 degrees, and the storage cylinder (10) is replaced;

step three: the metallic yarns are quickly hung on the positioning screws (10-1) to start corresponding winding motors (8), and the metallic yarns are spirally wound on corresponding storage barrels (10) by the winding motors (8);

step four: the pushing mechanism (3) slides the other side of the sliding waist hole (1-6) to push the sliding plate II (4-3), the swinging mechanism (5) is driven to rotate 180 degrees when the sliding plate II (4-3) is pushed, the swinging mechanism (5) drives the inclined cylinder I (6), the inclined cylinder II (7), the winding motor (8), the winding mechanism (9) and the storage cylinder (10) to rotate 180 degrees, and the storage cylinder (10) is replaced;

step five: when the storage barrel (10) is replaced, the pressurizing cutting knife I (11) and the cutting knife II (12) cut off the metallic yarns, and the storage barrel (10) which is coated is taken down.

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