CN111689297A - Quick automatic drawing, slitting and counting type wool top machine equipment - Google Patents

Abstract

The invention provides a quick automatic drawing, rolling, slitting and counting type wool top machine device, which is used for quickly producing wool tops and counting the wool tops and is characterized by comprising the following components: the yarn feeding mechanism with the yarn providing unit, the winding mechanism with the rotating frame, the cutting mechanism and the control part with the operation control unit and the counting unit, wherein the yarn providing unit comprises a rotating table and a plurality of yarn wheels fixed on the rotating table, one yarn is wound on each yarn wheel, the operation control unit controls the rotating table and the rotating frame to rotate simultaneously, the counting unit is further controlled to add 1 to the number of the yarns before the cutting of the yarns, the cutting mechanism is controlled to cut off the yarns, the rotating direction of the rotating table is the direction of the rotating table when viewed from one side of the rotating table, the rotating direction of the rotating frame is the direction of the rotating frame when viewed from one side of the rotating frame, and the rotating direction and the rotating speed of the rotating table and the rotating frame are the same.

Description

Quick automatic drawing, slitting and counting type wool top machine equipment

Technical Field

The invention relates to the field of wool top machines, in particular to a quick automatic winding, slitting and counting type wool top machine device.

Background

The traditional wool top machine has a complex structure, occupies a large area, can only produce long wool tops, and the produced long wool tops are coiled into a large coil on a coiling device. However, since the length of the wool tops generally used is 30cm to 5m, the conventional wool top machine must perform secondary processing on the long wool tops after producing the long wool tops to cut the long wool tops into wool tops of appropriate length. This secondary processing is typically done manually by a human, and is therefore inefficient and costly.

In addition, the counting of the processed wool tops is generally carried out manually in the secondary processing process of the long wool tops, the counting result is not accurate, and the counting process is time-consuming and labor-consuming.

To the problem of wool top automatic production, someone has studied the automatic wool top machine that can produce the wool top cutting wool top on the limit, thereby such automatic wool top machine mainly places the wool through a fixed shelf and provides the wool, and twine the wool on an iron wire through the wool guide equipment of a rotatory frame, then two iron wires step up the back tip and are given a pulling equipment that can reciprocate to remove, the wool is cut into the short hair (the length of short hair is the same basically at the in-process of carrying, evenly distributed on the iron wire, the tip parallel and level of short hair), pulling equipment can clip the iron wire and the rotatory iron wire in limit of pulling iron wire makes iron wire and short hair form the wool top, treat that pulling equipment draws out certain length back rethread cutting equipment with the wool top cutting down.

However, the automatic furring machine described above has the following problems in use:

first, automatic tops are typically produced by supplying one piece of yarn at a time, and the speed of production of the tops is dependent on the speed of reciprocation of the drawing device and the speed of rotation of the frame-type yarn guide device, which is inefficient. Therefore, in order to increase the production speed of the tops, it is necessary to increase both the reciprocating speed of the pulling device and the rotational speed of the yarn guiding device of the rotary frame type. However, the structure of the rotating frame type wool guiding device determines that the rotating speed of the wool guiding device cannot be increased after being increased to a larger speed, and at the moment, if the reciprocating moving speed of the pulling device is continuously increased, the wools wound on the iron wires are sparse, so that short wool on the produced wool top is sparse, and the use requirement of the wool top cannot be met.

Secondly, if the method of increasing the supply amount of the yarns is adopted to solve the problem of sparse short hair on the top, a new problem is caused, namely, a plurality of yarns are twisted together under the guide of the rotating frame type yarn guide equipment, and the twisted yarns are cut into short hair after being wound on the iron wire, so that the short hair formed in such a way is different in length and uneven, the arrangement on the iron wire is uneven, the end part is in an inclined plane rather than a plane, and the appearance of the top formed by the short hair is rough and poor in quality. In particular, the quality requirement of manual DIY wool tops (the length is about 30 cm-50 cm) cannot be met.

In summary, how to rapidly and automatically produce wool tops with good quality and automatically count the produced wool tops is an urgent problem and problem to be solved in the field of wool top machines.

Disclosure of Invention

The invention is carried out to solve the problems and aims to provide a quick automatic drawing, slitting and counting type top wool making machine device.

The invention provides a quick automatic drawing, rolling, slitting and counting type wool top machine device, which is used for quickly producing wool tops and counting the wool tops and is characterized by comprising the following components: a yarn supplying mechanism including a yarn supplying unit for supplying a plurality of yarns and a wire supplying unit for supplying at least two wires; the winding mechanism is used for driving the plurality of knitting wool to rotate so as to wind the plurality of knitting wool on one metal wire; the wire feeding mechanism is used for conveying the metal wires wound with the wool and the rest of metal wire bundles together and cutting the wool bundled together into short wool in the conveying process; the output part is used for clamping the metal wires and the short hairs conveyed by the wire feeding mechanism and pulling and rotating the metal wires and the short hairs to form wool tops; the cutting mechanism is used for cutting wool tops; and a control part, wherein the winding mechanism is provided with a rotating frame for driving a plurality of yarns to rotate and a winding driving unit for driving the rotating frame to rotate, the yarn supply unit is provided with a rotating table, a plurality of yarn wheels fixed on the rotating table and a rotating table driving unit for driving the rotating table to rotate, each yarn wheel is wound with one yarn, the yarn feeding mechanism is provided with a yarn feeding wheel and a yarn feeding driving unit for driving the yarn feeding wheel to rotate, the control part is provided with an operation control unit and a counting unit, the operation control unit controls the rotating table driving unit to drive the rotating table to rotate, the winding driving unit to drive the rotating frame to rotate, the yarn feeding driving unit is controlled to drive the yarn feeding wheel to feed yarn, the output part is also controlled to carry out clamping, pulling and rotating actions so as to obtain yarns, and then the counting unit is controlled to add 1 to the number of yarns, and controlling the cutting mechanism to cut off the wool tops, wherein the rotating direction of the rotating platform is the direction of the rotating platform when viewed from the side, away from the rotating platform, of the wool yarns, the rotating direction of the rotating frame is the direction of the rotating frame when viewed from the side, away from the rotating frame, of the wool yarns, and the rotating directions and the rotating speeds of the rotating platform and the rotating frame are the same.

In the quick automatic drawing, rolling, slitting and counting type wool top machine equipment provided by the invention, the quick automatic drawing, rolling, slitting and counting type wool top machine equipment also has the following characteristics: wherein the number of the hair line wheels is 4-8.

The invention provides a quick automatic drawing, slitting and counting type top wool making machine device, which also comprises: a frame, a guide piece corresponding to the wire drawing direction is arranged on the frame, the cutting mechanism is arranged at one end position of the guide piece, the guide piece is provided with a starting point travel switch close to the cutting mechanism and an end point travel switch far away from the cutting mechanism along the length direction, the output part comprises a wire clamping mechanism, a wire drawing mechanism and a wire winding mechanism, the wire drawing mechanism is provided with a moving platform which is slidably arranged on the guide piece and a wire drawing driving unit which drives the moving platform to move back and forth between the starting point travel switch and the end point travel switch, the wire clamping mechanism is provided with a rotating clamp which is arranged on the moving platform and a wire clamping driving unit which drives the rotating clamp to clamp short hair and metal wires, the wire winding mechanism is provided with a rotating shaft connected with the rotating clamp and a wire winding driving unit which drives the rotating shaft to rotate so that the rotating clamp rotates, the control part is also provided with a switch, the operation control unit controls the pull wire driving unit to start, so that the mobile platform moves along the direction close to the starting point travel switch to trigger the starting point travel switch, the starting point travel switch generates a starting point switch signal, once the switch signal receiving unit receives the starting point switch signal, the operation control unit controls the pull wire driving unit to stop, so that the mobile platform stops at the position of the starting point travel switch, controls the wire clamping driving unit to start after a first preset time interval, so that the rotating clamp clamps the short hair and the metal wire, controls the pull wire driving unit to start after a second preset time interval, so that the mobile platform moves towards the direction far away from the starting point travel switch to pull the short hair and the metal wire, controls the wire coiling driving unit to start simultaneously, so that the rotating clamp coils to form a wool top, and further controls the rotating platform driving unit to drive the rotating platform to rotate after a third preset time interval, at the same time, the winding driving unit is controlled to drive the rotary frame to wind, and the wire feeding driving unit is controlled to drive the wire feeding wheel to feed wire, once the switch signal receiving unit receives a terminal switch signal formed by triggering the terminal travel switch in the process that the mobile station moves towards the direction far away from the starting travel switch, the operation control unit controls the rotation table driving unit, the winding driving unit, the wire feeding driving unit and the winding driving unit to be closed at the same time, and after a fourth preset time interval, controlling the stay wire driving unit to stop so as to stop the mobile station at the position of the end-point travel switch, simultaneously controlling the counting unit to add 1 to the number of the wool tops, then the cutting mechanism is controlled to cut off the wool tops, the yarn clamping driving unit is further controlled to be closed, so that the rotating clamp loosens the wool tops, and then controlling the pull wire driving unit to start so that the moving platform moves in the direction close to the starting point travel switch and stops at the position of the starting point travel switch.

The invention provides a quick automatic drawing, slitting and counting type top wool making machine device, which also comprises: the wool top storage mechanism is used for containing cut wool tops and is provided with a first storage unit arranged below the mobile station and a second storage unit arranged below the first storage unit, the first storage unit is provided with a turning plate and a turning plate driving unit for driving the turning plate to be opened or closed, when the operation control unit controls the counting unit to add 1 to the number of the wool tops, the operation control unit also controls the counting unit to judge whether the number of the wool tops reaches a preset number of the wool tops, when the counting unit judges that the number of the wool tops reaches the preset number of the wool tops, the operation control unit controls the turning plate driving unit to be started to open the turning plate, simultaneously controls the counting unit to reset the number of the wool tops and add 1 to the number of the wool tops, and controls the turning plate driving unit to be closed to close the turning plate after a fifth preset time interval, further controls the cutting mechanism to cut the wool tops, and when the counting unit judges that the number of the wool tops does not reach the preset number of the wool tops, the operation control unit controls the cutting mechanism to cut off the wool tops.

The invention provides a quick automatic drawing, slitting and counting type top wool making machine device, which also comprises: and the alarm mechanism is provided with an alarm lamp, when the counting unit judges that the wool top number reaches the preset wool top number, the operation control unit controls the alarm lamp to be turned on, and controls the alarm lamp to be turned off after a fifth preset time interval.

In the quick automatic drawing, rolling, slitting and counting type wool top machine equipment provided by the invention, the quick automatic drawing, rolling, slitting and counting type wool top machine equipment also has the following characteristics: when the mobile platform moves along the direction close to the starting point travel switch to trigger the speed reduction travel switch to generate a speed reduction switch signal, once the switch signal receiving unit receives the speed reduction switch signal, the operation control unit controls the operation of the stay wire driving unit so that the mobile platform continues to move along the direction close to the starting point travel switch at the speed reduced after speed reduction and stops at the position of the starting point travel switch.

In the quick automatic drawing, rolling, slitting and counting type wool top machine equipment provided by the invention, the quick automatic drawing, rolling, slitting and counting type wool top machine equipment also has the following characteristics: the control part is also provided with an input display unit which is used for leading a user to input specific numerical values of preset time and preset wool top quantity.

In the quick automatic drawing, rolling, slitting and counting type wool top machine equipment provided by the invention, the quick automatic drawing, rolling, slitting and counting type wool top machine equipment also has the following characteristics: wherein, the guide piece and the mobile station are connected through a screw nut.

In the quick automatic drawing, rolling, slitting and counting type wool top machine equipment provided by the invention, the quick automatic drawing, rolling, slitting and counting type wool top machine equipment also has the following characteristics: wherein, have the transmission limit of being connected with the pivot on the revolving frame to and connect the transmission edge, be used for guiding the guide limit of many knitting wools, the guide edge is provided with a plurality of spacing rings that supply the knitting wools to pass, and winding mechanism still has the guide, and the guide is connected with the pivot of revolving frame, is used for rotating with the revolving frame is synchronous, thereby guides many knitting wools and twines on an iron wire.

In the quick automatic drawing, rolling, slitting and counting type wool top machine equipment provided by the invention, the quick automatic drawing, rolling, slitting and counting type wool top machine equipment also has the following characteristics: the wire feeding mechanism is provided with a wire feeding wheel, a cutting guide piece and a cutting knife, the cutting guide piece is arranged beside the wire feeding wheel and is provided with a first guide part and a second guide part which are mutually and vertically connected, a limiting hole for a metal wire to pass through is arranged on the first guide part, the second guide part is used for guiding the metal wire which passes through the limiting hole and winding a plurality of broken wires, the plurality of broken wires are wound on the metal wire and the second guide part, a gap is further arranged on the second guide part and is a part on which the broken wires are wound on the second guide part, one end of the cutting knife is arranged at the gap, the wire feeding wheel is used for combining the rest of the metal wires and the metal wires which are wound with the broken wires into a bundle and conveying the bundle, and the broken wires wound on the gap are cut into short hairs by the cutting knife in the conveying process.

Action and Effect of the invention

According to the quick automatic drawing, cutting and counting type wool top machine equipment related by the invention, the quick automatic drawing, cutting and counting type wool top machine equipment comprises the wire supply mechanism, the wire winding mechanism, the wire feeding mechanism, the output part, the cutting mechanism and the control part, wherein the wire supply mechanism comprises the wool wire supply unit and the metal wire supply unit, the wire winding mechanism is provided with the rotating frame, the wool wire supply unit is provided with the rotating table and a plurality of wool wheels fixed on the rotating table, and each wool wheel is wound with one wool wire.

In addition, since the rotating direction of the rotating table is the direction of the rotating table when viewed from the side where the knitting wool is separated from the rotating table, the rotating direction of the rotating frame is the direction of the rotating frame when viewed from the side where the knitting wool is separated from the rotating frame, the rotating directions and the rotating speeds of the rotating table and the rotating frame are the same, therefore, in the process of providing a plurality of yarns by the yarn providing unit, the plurality of yarns are firstly wound together under the driving action of the rotation of the rotating platform, then the winding state is unwound under the driving action of the rotation of the rotating frame, so that a plurality of knitting wools can be restored to the parallel state and wound on the iron wire in the state, the knitting wools are cut into short hair after being cut by the yarn feeding mechanism, the short hairs formed in this way are basically consistent in length, iron wires are uniformly distributed, the end parts of the short hairs are flat, the short hairs are flush with each other, and therefore the wool tops processed by the short hairs and the iron wires are good in quality.

In addition, the control part is provided with an operation control unit which simultaneously controls the rotating platform and the rotating frame to rotate so that the two actions can be synchronously carried out, and simultaneously controls the wire feeding wheel to feed wires, controls the output part to carry out clamping, pulling and rotating actions to form wool tops, and controls the cutting mechanism to cut the wool tops, thereby better realizing the effects.

In addition, because the control part is provided with the counting unit, the operation control unit controls the counting unit to add 1 to the number of the wool tops before the wool tops are cut, so that the counting unit can calculate the number of the wool tops in real time when one wool top is produced, the counting process is simple, the counting result is accurate, and the management of the yield of the wool tops during the mass production of the wool tops is facilitated.

In conclusion, the wool top machine equipment capable of rapidly and automatically detecting the pulling, rolling and slitting faults can rapidly produce wool tops with good quality and stable quality, and the economic benefit of wool top production enterprises is improved.

Drawings

FIG. 1 is a schematic structural diagram of a top machine apparatus of the type for rapidly and automatically drawing, slitting and counting a sliver in accordance with an embodiment of the present invention;

FIG. 2 is a schematic structural view of a wool top storage mechanism in an embodiment of the invention;

FIG. 3 is a block diagram showing the structure of a control unit in the embodiment of the present invention; and

FIG. 4 is a flow chart of the control process of the quick automatic drawing, slitting and counting type top wool making machine according to the embodiment of the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and effects of the invention easy to understand, the following embodiments are specifically described with reference to the accompanying drawings.

FIG. 1 is a schematic structural diagram of a top machine of the type for rapidly and automatically drawing, slitting and counting in an embodiment of the present invention.

As shown in fig. 1, the fast automatic drawing, slitting and counting type top wool making machine 100 in this embodiment is used for fast production of top wool, and includes a frame, a thread supplying mechanism 10, a thread winding mechanism 20, a thread feeding mechanism 30, a thread clamping mechanism 40, a thread drawing mechanism 50, a thread winding mechanism 60, a cutting mechanism 70, a top wool storing mechanism 80, an alarm mechanism 90 and a control part 200. Wherein, the output part comprises a wire clamping mechanism 40, a wire pulling mechanism 50 and a wire winding mechanism 60.

The rack includes a first rack and a second rack.

The thread supplying mechanism 10 is provided on the first frame, and includes a knitting-thread supplying unit 11 and a wire supplying unit 12.

The yarn supplying unit 11 is for supplying a plurality of yarns, and includes a rotary table 111, a rotary table driving unit 112, and a plurality of yarn wheels 113.

The turntable 111 may have a circular, square, polygonal shape, or the like. In the present embodiment, the turntable 111 is circular.

The turntable driving unit 112 is used to drive the turntable 111 to rotate, and includes a turntable driving motor to which a motor driver is connected. An output shaft of the turntable drive motor is coupled to a rotating shaft of the turntable 111 through a coupling, and can drive the turntable 111 to rotate.

The capstan 113 is fixed to the rotary table 111. The number of the hair rollers 113 is 4-8. In the present embodiment, the number of the hair rollers 113 is four. One yarn is wound on each of the yarn wheels 113.

The wire supplying unit 12 includes at least two wire pulleys, each of which is wound around one wire, so that the wire supplying unit 12 can supply at least two wires. In this embodiment, the number of wire wheels is two.

The winding mechanism 20 is provided on the first frame, and includes a rotary frame 21, a winding drive unit 22, and a guide 23.

The rotation shaft of the rotation frame 21 is horizontally disposed. The rotating frame 21 includes a driving edge and a guiding edge. The transmission limit is connected perpendicularly on the pivot, can revolute the pivot and rotate on vertical plane. The number of driving edges is two in this embodiment. The guide edges are connected perpendicularly to the two drive edges, in this embodiment the number of guide edges is two. The two guide edges are connected with the two transmission wheels to form a rectangle. The guide edge is provided with a plurality of limiting rings for the wool to pass through.

The first frame is also provided with a guide piece, and the guide piece is used for guiding a plurality of knitting wool to the guide edge.

The winding drive unit 22 is for driving the rotary frame 21 to rotate, and includes a winding motor to which a motor driver is connected. An output shaft of the winding motor is connected with the rotating shaft through a coupling, and can drive the rotating frame 21 to rotate.

The guiding member 23 is connected to the rotating shaft of the rotating frame 21, and is driven by the rotating shaft to rotate synchronously with the rotating frame 21. The guide 23 is provided with a through hole through which the yarn passes.

That is, the plurality of yarns are guided by the guide 23 of the first frame, pass through the stopper ring of the guide edge, and then pass through the through hole of the guide 23.

The rotation direction of the rotation base 111 is the direction of the rotation base 111 when viewed from the side where the yarn is separated from the rotation base 111, the rotation direction of the rotation frame 21 is the direction of the rotation frame when viewed from the side where the yarn is separated from the rotation frame 21, and the rotation direction and the rotation speed of the rotation base 111 and the rotation frame 21 are the same.

The wire feeding mechanism 30 is provided on the first frame, is provided outside the side of the rotating frame 21 close to the second frame, and includes a wire feeding wheel 31, a wire feeding drive unit 32, a dividing guide 33, and a dividing knife 34.

The wire feeding wheel 31 is provided outside the rotary head 23 and can rotate in the horizontal direction. The number of the wire feeding wheels 31 is at least one. The wire feeding drive unit 32 has a wire feeding motor to which a motor driver is connected. An output shaft of the wire feeding motor is connected with the wire feeding wheel 31 through a coupler so as to drive the wire feeding wheel 31 to rotate.

The split guide 33 is provided on the wire feeding wheel 31 side and has a first guide portion and a second guide portion connected perpendicularly to each other. The first guide part is in a vertically extending circular sheet shape, and at least one hole part is arranged on the first guide part and is used for allowing a metal wire to pass through. The second guide part extends along the horizontal direction and is provided with a columnar winding area for winding the wool. Therefore, a wire passing through the hole portion is closely attached to the second guide portion, and the knitting wool passing out from the rotating head 23 can be wound on the second guide portion and the wire closely attached to the second guide portion under the guidance of the rotating frame 21 and the rotating head 23, and is specifically wound on the portion corresponding to the winding region.

The second guide portion is further provided with a gap, and the gap is located in the winding area and penetrates through the second guide portion. One end (blade edge) of the dividing knife 34 is fixedly arranged in the gap, and the other end is fixed on the first frame through a knife rest.

The second guide part can be matched with the wire feeding wheel, so that the metal wire wound with the wool and the other metal wire bundle are combined together. When the wire feeding driving motor drives the wire feeding wheel 31 to rotate, the wire feeding wheel 31 can convey the metal wire wound with the wool and the other metal wire bundle together through the cooperation with the second guide part, and in the conveying process, the wool bundled together can be cut by the dividing knife 34 arranged in the gap of the second guide part to form short wool, and the short wool is clamped between the two metal wires.

The second frame is provided with a guide member 121 corresponding to the wire drawing direction. The number of the guide members 121 is two in the present embodiment, and the two guide members 121 are arranged side by side. The guide 121 is a lead screw. A start-point stroke switch 122, a deceleration stroke switch 123, and an end-point stroke switch 124 are also provided in the longitudinal direction of the guide 121. Wherein the starting point travel switch 121 is closest to the first rack, the end point travel switch 124 is farthest from the first rack, and the deceleration travel switch 123 is disposed between the starting point travel switch 121 and the end point travel switch 124. The three travel switches each have a pressing piece, and when the pressing piece is pressed, the contacts of the travel switches are contacted so that the travel switches are triggered. When the pressing is released, the pressing sheet can automatically return to the original position.

The wire drawing mechanism 50 has a moving table 51 and a wire drawing drive unit 52.

The bottom of the moving stage 51 is provided with a nut engaged with the guide 121, and the nut is fitted over the guide 121 so that the moving stage 51 is bridged over the two guides 121 and can reciprocate between the start-point stroke switch 121 and the end-point stroke switch 124 along the guide 121. The movable stage 51 is also provided with pressing members corresponding to the pressing pieces of the respective stroke switches. When the moving table 51 moves to a position corresponding to the stroke switch, the pressing piece can press down the pressing piece, thereby triggering the corresponding stroke switch.

The wire drive unit 52 has a wire motor. In this embodiment, the output shaft of the pull motor is connected to the guide member 121. Since the guide member 121 is a lead screw, the movable stage 51 can be reciprocally moved by the driving of the wire motor by the lead screw-nut engagement. The stay wire motor is a servo motor connected with a servo motor driver.

The thread tension mechanism 40 is provided on the moving table 51, and has a rotating gripper 41 and a thread tension drive unit. The wire clamping driving unit is provided with an air valve connected with an air valve driver. The air valve can drive the rotary clamp 41 to carry out clamping action or unclamping action.

The winding mechanism 60 is provided on the moving table 51, and includes a rotating shaft connected to the rotating clamp 41 and a winding driving unit 61. The winding wire driving unit 61 has a winding wire motor to which a motor driver is connected. The wire winding motor can be connected to the rotation shaft to drive the rotating clamp 41 to rotate.

When the rotating clamp 41 clamps the yarns and the two metal wires to rotate, the two metal wires are twisted into a twisted shape, the cut yarns are wound into the two metal wires to form a rotating three-dimensional shape, and the wool tops are dragged out under the pulling of the moving table 51.

The cutting mechanism 70 is provided on the second frame and outside the guide member 121 between the wire feeding mechanism 30 and the guide member 121. The cutting mechanism 70 has a cutting frame, a cutting blade provided on the cutting frame, and a cutting drive unit that drives the cutting blade to cut. The cutting drive unit has an air valve connected with an air valve driver. The cutting mechanism 70 is used to cut the formed tops.

When the thread feeding mechanism 30 feeds the thread, the yarn and the wire can be conveyed to the position of the cutting frame of the cutting mechanism 70, and when the moving table 51 moves and stops at the position of the start limit switch 122, the rotating clamp can just clamp the conveyed yarn and the wire.

FIG. 2 is a schematic structural view of a wool top storage mechanism in an embodiment of the invention.

As shown in fig. 1 and 2, the top storage mechanism 80 is used for storing cut tops, is disposed on the second frame and below the corresponding areas of the two guides 121, and has a first storage unit 81 and a second storage unit 82.

The first storage unit 81 has a fixing plate 811, a flap 812, and a flap driving unit that drives the flap 812 to open or close.

A rotating shaft is provided at an upper portion of the flap 812, and a flap driving unit is used to drive the flap to rotate around the rotating shaft so as to be opened or closed. The turning plate driving unit is an air valve connected with an air valve driver. When the flap 812 is closed (shown by solid lines in fig. 2), the bottom of the flap 812 contacts the bottom of the fixing plate 811, and the flap 812 and the fixing plate 811 form a V-shaped structure for holding wool tops. When the flap 812 is open (as shown in phantom in fig. 2), the bottom of the flap 812 is spaced from the bottom of the fixed plate 811.

The second storage unit 82 is a box with an open top, is arranged below the first storage unit 81, and is used for containing wool tops falling from the first storage unit 81 after the turning plate 812 is opened.

The alarm mechanism 90 is provided on the first frame and has an alarm lamp.

Fig. 3 is a block diagram of a control unit according to an embodiment of the present invention.

As shown in fig. 3, the control unit 200 controls the operations of the winding mechanism 20, the thread feeding mechanism 30, the thread clamping mechanism 40, the thread pulling mechanism 50, the thread winding mechanism 60, the cutting mechanism 70, the wool top storage mechanism 80, and the alarm mechanism 90, and includes an operation control unit 201, a switch signal receiving unit 202, an input display unit 203, and a counting unit 204.

The operation control unit 201 is connected to each of the motor drivers of the winding drive unit 22, the wire feeding drive unit 32, the wire clamping and pulling drive unit 52, and the wire winding drive unit 61, and each motor driver directly controls the operation of the corresponding motor according to the control instruction of the operation control unit 201. The operation control unit 201 is further connected to each air valve driver of the wire clamping drive unit 41, the cutting drive unit and the flap drive unit, and each air valve driver directly controls the operation of the corresponding air valve according to the control instruction of the operation control unit 201.

The operation control unit 201 is also used for controlling the alarm mechanism 90 to issue an alarm, and for controlling the switching signal receiving unit 202, the input display unit 203, and the counting unit 204.

The switching signal receiving unit 202 is configured to receive a switching signal. The switch signals comprise a starting point switch signal sent after the starting point travel switch is triggered, a speed reducing switch signal sent after the speed reducing travel switch is triggered and an end point switch signal sent after the end point travel switch is triggered.

The input display unit 203 is used for displaying a predetermined time frame and allowing a user to input a specific numerical value of a predetermined time. The preset time comprises a first preset time, a second preset time, a third preset time, a fourth preset time, a fifth preset time and a sixth preset time.

The input display unit 203 is also used for displaying a mobile station moving speed picture and letting the user input a specific numerical value of the moving speed. The moving speed includes a first speed, a second speed and a third speed.

The input display unit 203 is also used for displaying a wool top number screen and allowing the user to input a specific numerical value of a predetermined wool top number. The preset wool top number comprises a preset wool top number and a preset wool top handle number.

The counting unit 204 is used for counting the number of the wool tops and the number of the wool tops. When the switch signal receiving unit receives the end switch signal, the counting unit 204 can add 1 to the number of the wool tops, so as to count the production number of the wool tops in real time. In addition, the counting unit 204 can also compare and judge whether the wool top number reaches the preset wool top number, if the judgment result is yes, the counting unit 204 can further clear the wool top number and add 1 to the wool top number. In addition, the counting unit 204 can also compare and judge whether the wool top handle number reaches the preset wool top handle number.

FIG. 4 is a flow chart of the control process of the quick automatic drawing, slitting and counting type top wool making machine according to the embodiment of the present invention.

The control process of the fast automatic drawing, slitting and counting type top wool making machine of the present embodiment will be described with reference to fig. 4.

In step S1, the apparatus is turned on, and the operation control unit 201 controls the pull-motor driving the moving stage 51 to move at the first low speed in the direction approaching the start-point stroke switch 122, and then proceeds to step S2.

In step S2, the mobile station 51 activates the start stroke switch 122, and the start stroke switch 122 generates a start switch signal, and then the process proceeds to step S3.

In step S3, the operation control unit 201 controls the switching signal receiving unit 82 to receive the start switching signal, and then proceeds to step S4.

In step S4, the operation control unit 201 controls the pull motor to stop the moving stage 51 at the start stroke switch position, and then proceeds to step S5.

In step S5, after the first predetermined time interval, the operation control unit 201 controls the wire clamping air valve to start to clamp the wool and the wire by the rotating clamp 41, and then the process proceeds to step S6.

In step S6, after the second predetermined time interval, the operation control unit 201 controls the thread winding motor to drive the rotary gripper 41 to rotate while controlling the thread drawing motor driving moving stage 51 to move in the direction away from the starting point stroke switch 122 at the second speed, thereby winding the knitting wool and the wire into the knitting wool top, and then proceeds to step S7.

In step S7, after the third predetermined time interval, the operation control unit 201 controls the turntable driving motor to drive the turntable to rotate, controls the winding motor to drive the rotary frame to rotate for winding, controls the wire feeding motor to drive the wire feeding wheel to feed wire, and then proceeds to step S8. Wherein, the rotating platform and the rotating frame rotate at the same speed and in the same rotating direction.

In step S8, the mobile station 51 activates the end-point travel switch 124, and the end-point travel switch 124 generates an end-point switch signal, and then proceeds to step S9.

In step S9, the operation control unit 201 controls the switching signal receiving unit 82 to receive the destination switching signal, and then proceeds to step S10.

In step S10, the operation control unit 201 simultaneously controls the turntable driving motor, the winding motor, the wire feeding motor, and the winding motor to stop, thereby stopping the wire feeding, winding, wire feeding, and winding, and then the process proceeds to step S11.

In step S11, after the fourth predetermined time interval, the operation control unit 201 controls the pull motor to stop the moving stage 51 at the starting point stroke switch position, and at the same time controls the counting unit 204 to add 1 to the number of tops, and then proceeds to step S12.

In step S12, the operation control unit 201 controls the counting unit 204 to determine whether the number of tops reaches a predetermined number of tops, and when the counting unit 204 determines that the number of tops reaches the predetermined number of tops, it proceeds to step S13; when the counting unit 204 judges that the number of the tops has not reached the predetermined number of the tops, it proceeds to step S15.

In step S13, the operation control unit 201 controls the flap valve driving flap 812 to open, and at the same time controls the counting unit 204 to zero the wool top number and add 1 to the wool top number, and controls the alarm lamp to open, and then the process proceeds to step S14.

In step S14, after the fifth predetermined time interval, the operation control unit 201 controls the flap valve driving flap 812 to be closed and simultaneously controls the alarm lamp to be turned off, and then proceeds to step S15.

In step S15, the operation control unit 201 controls the cutting air valve to drive the cutter to cut off the formed wool tops, and then the process proceeds to step S16.

In step S16, the operation control unit 201 controls the thread clamping air valve to close to release the wool tops from the rotating clamp 41, and then the process proceeds to step S17.

In step S17, the operation control unit 201 controls the wire motor to drive the moving stage 51 to move at the third higher speed in the direction approaching the start stroke switch 122, and then proceeds to step S18.

In step S18, the mobile station 51 activates the deceleration stroke switch 123, and the deceleration stroke switch 123 generates the deceleration switch signal, and then the process proceeds to step S19.

In step S19, the operation control unit 201 controls the switching signal receiving unit 82 to receive the speed reducing switching signal, and then proceeds to step S20.

Step S20, the operation control unit 201 controls the pull-wire motor to drive the movable stage 51 to move at a first low speed in a direction approaching the starting-point stroke switch 122, and at the same time, controls the counting unit 204 to determine whether the number of the grip portions reaches the predetermined number of the grip portions, and when the counting unit 204 determines that the number of the grip portions reaches the predetermined number of the grip portions, it proceeds to step S24; when the counting unit 204 judges that the grip count has not reached the predetermined grip count, it proceeds to step S21.

In step S21, the mobile station 51 activates the start stroke switch 122, and the start stroke switch 122 generates a start switch signal, and then the process proceeds to step S22.

In step S22, the operation control unit 201 controls the switching signal receiving unit 82 to receive the start switching signal, and then proceeds to step S23.

In step S23, the operation control unit 201 controls the pull motor to stop the moving stage 51 at the start stroke switch position, and then enters the end state.

In step S24, after the sixth predetermined time interval, the terminal state is entered.

The above is the control process for preparing one wool top, and if the wool top is continuously produced, after the completion of the step S23, the process proceeds to the step S5 to proceed to the preparation process of the next wool top.

Effects and effects of the embodiments

According to the quick automatic winding, cutting and counting type wool top machine equipment related to the embodiment, the quick automatic winding, cutting and counting type wool top machine equipment comprises a yarn supply mechanism, a winding mechanism, a yarn feeding mechanism, an output part, a cutting mechanism and a control part, wherein the yarn supply mechanism comprises a wool yarn supply unit and a metal wire supply unit, the winding mechanism is provided with a rotating frame, the wool yarn supply unit is provided with a rotating platform and a plurality of wool wheels fixed on the rotating platform, and each wool wheel is wound with one wool yarn.

In addition, since the rotating direction of the rotating table is the direction of the rotating table when viewed from the side where the knitting wool is separated from the rotating table, the rotating direction of the rotating frame is the direction of the rotating frame when viewed from the side where the knitting wool is separated from the rotating frame, the rotating directions and the rotating speeds of the rotating table and the rotating frame are the same, therefore, in the process of providing a plurality of yarns by the yarn providing unit, the plurality of yarns are firstly wound together under the driving action of the rotation of the rotating platform, then the winding state is unwound under the driving action of the rotation of the rotating frame, so that a plurality of knitting wools can be restored to the parallel state and wound on the iron wire in the state, the knitting wools are cut into short hair after being cut by the yarn feeding mechanism, the short hairs formed in this way are basically consistent in length, iron wires are uniformly distributed, the end parts of the short hairs are flat, the short hairs are flush with each other, and therefore the wool tops processed by the short hairs and the iron wires are good in quality.

In addition, the control part is provided with an operation control unit which simultaneously controls the rotating platform and the rotating frame to rotate so that the two actions can be synchronously carried out, and simultaneously controls the wire feeding wheel to feed wires, controls the output part to carry out clamping, pulling and rotating actions to form wool tops, and controls the cutting mechanism to cut the wool tops, thereby better realizing the effects.

In addition, because the control part is provided with the counting unit, the operation control unit controls the counting unit to add 1 to the number of the wool tops before the wool tops are cut, so that the counting unit can calculate the number of the wool tops in real time when one wool top is produced, the counting process is simple, the counting result is accurate, and the management of the yield of the wool tops during the mass production of the wool tops is facilitated.

Further, the figure of knitting wool wheel is 4 ~ 8, therefore knitting wool provides the unit and can provide 4 ~ 8 knitting wool simultaneously, can enough satisfy the requirement of the winding efficiency of the fast production hair in to the unit interval, when can avoid the winding efficiency in the unit interval too high again, and the problem that the knitting wool that causes is rolled up into a ball (pimple) on the iron wire can not further be improved to the round trip moving speed of wire drawing mechanism.

Furthermore, the wool top storage mechanism comprises a first storage unit and a second storage unit, the first storage unit is provided with a turning plate capable of being opened and closed, the second storage unit is arranged below the first storage unit, therefore, the first storage unit can store wool tops produced in real time, when the wool tops stored in the first storage unit reach a preset number, the turning plate is opened, the wool tops with the preset number directly enter the second storage unit, the wool tops are counted again after being cleared, the number of the wool tops is increased by 1, after the turning plate is closed, the first storage unit continues to store new wool tops, meanwhile, a user can select to directly take out the wool tops from the second storage unit, and also can select to take out the wool tops when the number of the wool tops of the second storage unit reaches a certain number, so that the user can conveniently manage the produced wool tops.

Further, alarm mechanism has the alarm lamp, and when the wool top root reached predetermined wool top root, the alarm lamp was opened, closed after the certain time interval, therefore every wool top of production, a user will be reminded to the alarm lamp, and convenience of customers manages the wool top of production.

Furthermore, because the guide piece is also provided with the speed reduction travel switch, when the mobile platform moves to the position of the speed reduction travel switch along the direction close to the starting travel switch, the mobile platform can trigger the speed reduction travel switch to enable the speed reduction travel switch to generate a speed reduction switch signal, and after the switch signal receiving unit receives the speed reduction switch signal, the operation control unit controls the mobile platform to stop at the position of the starting travel switch after speed reduction, therefore, the mobile platform can move (return trip) from the starting travel switch to the starting travel switch at a higher speed and stop at the position of the starting travel switch after speed reduction. Therefore, the return time of the mobile station is shortened, the production time of each wool top is shortened, the production efficiency is improved, and the phenomenon that the mobile station is rapidly braked to cause a large burden on a stay wire motor when directly moving to a starting point travel switch at a higher speed is avoided.

Furthermore, the operation control unit can also control the counting unit to judge whether the wool top bundle number reaches the preset wool top bundle number, and when the wool top bundle number reaches the preset wool top bundle number, the equipment is shut down. Therefore, the machine can be stopped to maintain every batch of wool tops with preset number, and the service life of the machine is prolonged.

Further, the control part is also provided with an input display unit, and a user can input specific numerical values of the preset time and the preset wool top quantity through the input display unit so as to adjust the operation of the wool top machine equipment.

Further, the guide and the moving stage are coupled by the lead screw nut, and therefore, the movement of the moving stage on the guide can be precisely controlled.

In conclusion, the wool top machine equipment capable of rapidly and automatically detecting the pulling, rolling and slitting faults can rapidly produce wool tops with good quality and stable quality, and the economic benefit of wool top production enterprises is improved.

The above embodiments are preferred examples of the present invention, and are not intended to limit the scope of the present invention.

Claims (10)

1. The utility model provides a count type wool top machine equipment is cut to quick automatic drawing book for it is right to produce the wool top fast the wool top counts, its characterized in that includes:

a yarn supplying mechanism including a yarn supplying unit for supplying a plurality of yarns and a wire supplying unit for supplying at least two wires;

the winding mechanism is used for driving the plurality of knitting wool to rotate so as to wind the plurality of knitting wool on one metal wire;

a thread feeding mechanism for feeding the metal wire wound with the yarns together with the rest of the metal wire bundle and cutting the yarns bundled together into short yarns in the feeding process;

the output part is used for clamping the metal wire and the short hair conveyed by the wire feeding mechanism and pulling and rotating the metal wire and the short hair to form wool tops;

the cutting mechanism is used for cutting the wool tops; and

a control part for controlling the operation of the display device,

wherein the winding mechanism is provided with a rotating frame for driving a plurality of knitting wool to rotate and a winding driving unit for driving the rotating frame to rotate,

the knitting wool providing unit is provided with a rotating platform, a plurality of knitting wool wheels fixed on the rotating platform and a rotating platform driving unit used for driving the rotating platform to rotate, each knitting wool wheel is wound with a knitting wool,

the wire feeding mechanism is provided with a wire feeding wheel and a wire feeding driving unit for driving the wire feeding wheel to rotate,

the control unit has an operation control means and a counting means,

the operation control unit controls the rotating table driving unit to drive the rotating table to rotate, controls the winding driving unit to drive the rotating frame to rotate, controls the wire feeding driving unit to drive the wire feeding wheel to feed wires, controls the output part to carry out clamping, pulling and rotating actions so as to obtain wool tops, controls the counting unit to add 1 to the number of the wool tops and controls the cutting mechanism to cut off the wool tops,

the rotating direction of the rotating table is the direction of the rotating table when viewed from the side where the knitting wool leaves the rotating table, the rotating direction of the rotating frame is the direction of the rotating frame when viewed from the side where the knitting wool leaves the rotating frame, and the rotating direction and the rotating speed of the rotating table and the rotating frame are the same.

2. The quick automatic pulling, rolling, slitting and counting type wool top machine equipment according to claim 1, characterized in that:

wherein the number of the hair line wheels is 4-8.

3. The apparatus of claim 1, further comprising:

a frame, a guide piece corresponding to the wire drawing direction is arranged on the frame,

the cutting mechanism is provided at one end position of the guide,

the guide piece is provided with a starting point travel switch close to the cutting mechanism and an end point travel switch far away from the cutting mechanism along the length direction,

the output part comprises a wire clamping mechanism, a wire pulling mechanism and a wire winding mechanism,

the wire drawing mechanism is provided with a moving table which is slidably arranged on the guide piece and a wire drawing driving unit which drives the moving table to reciprocate between the starting point travel switch and the end point travel switch,

the thread clamping mechanism is provided with a rotary clamp arranged on the moving table and a thread clamping driving unit for driving the rotary clamp to clamp the short hair and the metal wire,

the winding mechanism is provided with a rotating shaft connected with the rotating clamp and a winding driving unit which drives the rotating shaft to rotate so as to rotate the rotating clamp,

the control section further has a switching signal receiving unit,

when the user starts the device, the operation control unit controls the pull wire driving unit to start, so that the mobile station moves along the direction close to the starting point travel switch to trigger the starting point travel switch, and the starting point travel switch generates a starting point switch signal,

once the switch signal receiving unit receives the starting point switch signal, the operation control unit controls the pull line driving unit to stop so that the mobile station stops at the starting point travel switch position, controls the wire clamping driving unit to start after a first preset time interval so that the rotating clamp clamps the short hair and the metal wire, controls the pull line driving unit to start after a second preset time interval so that the mobile station moves in a direction away from the starting point travel switch so that the short hair and the metal wire are pulled, controls the winding driving unit to start so that the rotating clamp winds to form a wool top, controls the rotating table driving unit to drive the rotating table to rotate after a third preset time interval, and controls the winding driving unit to drive the rotating frame to wind, and simultaneously controlling the wire feeding driving unit to drive the wire feeding wheel to feed the wire,

once the switch signal receiving unit receives a terminal switch signal formed by triggering the terminal travel switch in the process that the mobile station moves away from the starting travel switch, the operation control unit controls the rotation table driving unit, the winding driving unit, the wire feeding driving unit and the winding driving unit to be turned off at the same time, and after a fourth preset time interval, controlling the stay wire driving unit to stop so as to stop the mobile station at the position of the end-point travel switch, and simultaneously controlling the counting unit to add 1 to the number of wool tops, then the cutting mechanism is controlled to cut off the wool tops, the yarn clamping driving unit is further controlled to be closed, so that the rotating clamp loosens the wool tops, and then controlling the pull wire driving unit to be started, so that the moving platform moves in the direction close to the starting point travel switch and stops at the position of the starting point travel switch.

4. The apparatus of claim 3, further comprising:

a wool top storage mechanism used for storing the cut wool tops and provided with a first storage unit arranged below the mobile station and a second storage unit arranged below the first storage unit,

the first storage unit is provided with a turning plate and a turning plate driving unit for driving the turning plate to open or close,

when the operation control unit controls the counting unit to add 1 to the wool top number, the operation control unit also controls the counting unit to judge whether the wool top number reaches a preset wool top number,

when the counting unit judges that the wool top number reaches the preset wool top number, the operation control unit controls the turning plate driving unit to start so as to open the turning plate, controls the counting unit to clear the wool top number and add 1 to the wool top number, controls the turning plate driving unit to close after a fifth preset time interval so as to close the turning plate, and further controls the cutting mechanism to cut off the wool top,

when the counting unit judges that the number of the wool tops does not reach the preset number of the wool tops, the operation control unit controls the cutting mechanism to cut off the wool tops.

5. The apparatus of claim 4, further comprising:

the alarm mechanism is provided with an alarm lamp,

when the counting unit judges that the wool top number reaches the preset wool top number, the operation control unit controls the alarm lamp to be turned on and controls the alarm lamp to be turned off after the fifth preset time interval.

6. The quick automatic pulling, rolling, slitting and counting type wool top machine equipment according to claim 4, characterized in that:

wherein the guide piece is also provided with a deceleration travel switch which is arranged between the starting travel switch and the final travel switch,

when the moving table moves in the direction close to the starting point travel switch so as to trigger the speed reduction travel switch to enable the speed reduction travel switch to generate a speed reduction switch signal,

the operation control unit controls the counting unit to determine whether the grip count reaches a predetermined grip count once the switch signal receiving unit receives the deceleration switch signal,

when the counting unit judges that the wool top handle number reaches the preset wool top handle number, the equipment is shut down.

7. The quick automatic pulling, rolling, slitting and counting type wool top machine equipment according to claim 4, characterized in that:

the control part is also provided with an input display unit which is used for leading a user to input specific numerical values of preset time and preset wool top quantity.

8. The quick automatic pulling, rolling, slitting and counting type wool top machine equipment according to claim 4, characterized in that:

wherein the guide and the mobile station are connected by a feed screw nut.

9. The quick automatic pulling, rolling, slitting and counting type wool top machine equipment according to claim 1, characterized in that:

wherein the rotating frame is provided with a transmission edge connected with the rotating shaft and a guide edge connected with the transmission edge and used for guiding a plurality of knitting wool,

a plurality of limiting rings for the wool to pass through are arranged on the guide edge,

the winding mechanism is also provided with a guide piece,

the guide piece is connected with the rotating shaft of the rotating frame and used for synchronously rotating with the rotating frame so as to guide a plurality of knitting wool to wind on one iron wire.

10. The quick automatic pulling, rolling, slitting and counting type wool top machine equipment according to claim 1, characterized in that:

wherein the wire feeding mechanism is provided with a wire feeding wheel, a dividing guide piece and a dividing knife which are arranged beside the wire feeding wheel,

the division guide has a first guide portion and a second guide portion perpendicularly connected to each other,

a limiting hole for the metal wire to pass through is arranged on the first guide part,

the second guide part is used for guiding the metal wire passing through the limiting hole and winding a plurality of yarns, so that the yarns are wound on the metal wire and the second guide part,

the second guide part is also provided with a gap, the gap is a part of the second guide part wound with the wool, one end of the dividing knife is arranged at the gap,

the wire feeding wheel is used for combining the rest of the metal wires and the metal wires wound with the wool into a bundle and conveying the bundle, and the wool wound on the gap is divided into the short wool by the dividing knife in the conveying process.

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