CN109665371B - Weaving is with mechanical device that can realize line is received to ration - Google Patents

Abstract

The invention discloses a mechanical device capable of realizing quantitative take-up for spinning, which comprises a take-up control box, a take-up roller, a take-up control bearing bottom plate and a take-up control elastic supporting mechanism, wherein the take-up control bearing bottom plate is arranged on the take-up roller; the invention can automatically realize the wire rewinding operation, can realize the rapid wire rewinding, greatly improves the working efficiency, saves the labor and has high stability and safety performance. The device can set the rotation time of the wire winding rotating motor according to the wire winding amount, so that the wire winding working time suitable for the wire winding amount is obtained; the equipment is not idled to waste resources; when the wire winding starts, the wire winding roller is placed on the main wire winding shaft and is close to the iron sheet; the take-up roller and the main take-up shaft form a whole body which is convenient to disassemble and assemble; when the equipment is not used, the volume of the equipment can be reduced, and the equipment does not occupy too much space; when the wire winding is completed, the wire winding roller position pushing mechanism pushes the push rod to move from left to right so as to drive the wire winding roller to be automatically separated from the iron sheet, and the wire winding roller is convenient to take down.

Description

Weaving is with mechanical device that can realize line is received to ration

The application is a divisional application of a Chinese patent application with the application number of 201710449453.6, which is filed on 6, 14 and 2017 and the name of which is a mechanical device capable of realizing quantitative take-up for spinning.

Technical Field

The invention relates to the field of textile, in particular to a mechanical device capable of realizing quantitative take-up for textile.

Background

The existing textile field belongs to the very important field, and the take-up device belongs to the indispensable operating equipment; however, when the wire is wound, the wire is wound by rotating the wire coil, the existing disk surface is small, the wire is wound by using the wire coil operated by a single person, and the efficiency is low.

Found through the retrieval, patent number CN 201120015148.4's utility model discloses a weaving is with metal microwire admission shaft, relates to a spinning machine. Consists of a wire collecting pipe and end panels at two ends; the wire collecting pipe is a round pipe, and an inner hole of the round pipe is a mounting hole. The end face plate is circular, and the inner side face of the end face plate and an excircle bus of the wire collecting pipe have a certain included angle. The included angle of the end face plates is within the range of 26-30 degrees, the metal microfilament is in a nearly linear state when being paid off at high speed, the end face has no resistance or little resistance, the physical performance of the metal microfilament cannot be damaged, the yarn breakage basically cannot be generated, and the woven fabric is smooth and smooth.

Patent No. CN 201520221851.9's utility model discloses a take-up reel take-up is used in weaving, including eccentric wheel, slide rail, workstation, support frame, take-up reel, winding displacement contact and servo motor, the eccentric wheel is installed through the fixing base in the workstation bottom, and the eccentric wheel is fixed in the drive shaft, and the eccentric wheel passes through connecting rod joint support frame, and the support frame slides and sets up on the slide rail, and the slide rail is fixed on the workstation, the take-up reel is installed to the support frame upper end, and the take-up reel is cylindricality tubular structure, and the take-up reel both ends are equipped with discoid shelves drum, and servo motor is connected through the pivot in the take-up reel inside, and servo motor sets up.

The invention of patent number CN201511035257.1 discloses a textile take-up device, which comprises a platform, a textile rotating shaft and a spool which are arranged on the platform, and a driving motor which is arranged on the lower side of the platform and connected with the spool, wherein a textile rotating shaft support, a spool support and a motor support are correspondingly arranged on the platform, the spool support and the motor support are coaxially arranged, and the number of the spools is 1-5.

However, the conventional line collecting apparatus has the following problems: 1. the conventional take-up device has low automation degree, cannot automatically control take-up time according to take-up quantity, and often has the phenomena of resource waste and the like;

2. the existing take-up device is complex in structure, large in size, not easy to assemble and disassemble and difficult to operate, and can greatly influence the take-up speed, so that the take-up efficiency is always difficult to improve, and the working efficiency is also reduced;

3. the existing wire take-up device is usually directly fixed on an operation table board, and the wire take-up device is usually driven by a motor to rotate in the wire take-up process, so that the vibration and the noise of the wire take-up device are obvious;

4. in the existing take-up device, because a motor drives the take-up device to rotate, the heat productivity in the take-up device is large, in order to accelerate heat dissipation, a heat dissipation assembly needs to be added independently, and the take-up device wastes time and labor and has high cost;

5. the existing wire take-up device has the advantages that the integral structure of the take-up roller is complex and large in volume, the take-up roller is not easy to disassemble, assemble and manufacture, and the take-up roller is difficult to apply to take-up wires.

Disclosure of Invention

Therefore, in order to solve the above disadvantages, the invention provides a mechanical device capable of realizing quantitative take-up for spinning, which comprises a take-up control box, a take-up roller, a take-up control bearing bottom plate and a take-up control elastic support mechanism; the device can set the rotation time of the wire winding rotating motor according to the wire winding amount, so that the wire winding working time suitable for the wire winding amount is obtained; the equipment is not idled, and resources are not wasted.

The invention is realized in this way, construct a textile to realize the mechanical device of the quantitative take-up, the device includes taking-up control box, taking-up cylinder, taking-up control bearing bottom plate, taking-up control elastic support mechanism; the wire take-up control box is integrally fixed on the wire take-up control bearing bottom plate, and the wire take-up control bearing bottom plate is supported by a plurality of wire take-up control elastic supporting mechanisms; the take-up roller is positioned on a main take-up shaft extending out of the take-up control box;

the wire take-up control box comprises a wire take-up control box body, a control panel and an operation panel; the integral side surface of the take-up control box body is of a right-angled trapezoid structure; the control panel and the control panel are respectively fixed on the front side surface of the wire-rewinding control box body; a middle supporting plate is fixed inside the wire take-up control box body;

a push rod bearing sleeve made of a wear-resistant material is arranged on the right side surface of the take-up control box body;

a plurality of bent reinforcing blocks are arranged inside the take-up control box body; the bent reinforcing block is convenient for taking up the wire to control the connection and the reinforcement of the interior of the box body;

the inside of the wire take-up control box is divided into a left control chamber and a right rotating chamber by a middle supporting plate; a take-up rotating motor is installed in the left control chamber, the left end of the main take-up shaft extends into the middle support plate and then is in butt joint with the output end of the take-up rotating motor, and the right end of the main take-up shaft penetrates out of the take-up control box;

the outer side surfaces of the take-up rollers are respectively fixed with a magnet block;

an iron sheet is fixed on the main wire take-up shaft;

the inside of the take-up control box also comprises a take-up roller position pushing mechanism, and the take-up roller position pushing mechanism comprises a take-up roller position pushing motor and a take-up roller position pushing push rod;

the wire collecting roller position pushing motor is positioned in the left side control chamber, the rotating end of the wire collecting roller position pushing motor is a lead screw, the left end of the wire collecting roller position pushing push rod is a sleeve end, the wire collecting roller position pushing push rod is connected with the rotating end of the wire collecting roller position pushing motor through the sleeve end at the left end, the right end of the wire collecting roller position pushing push rod extends out of the wire collecting control box, and when the wire collecting roller position pushing motor rotates, the rotating end drives the wire collecting roller position pushing push rod to move left and right through the sleeve end;

the control panel is provided with an input keyboard, a main board and a display screen which are used for controlling the wire-rewinding rotating motor to work;

a power switch is arranged on the control panel;

the control panel is provided with a start-stop switch of the take-up roller position pushing motor.

The device comprises a take-up control box, a take-up roller, a take-up control bearing bottom plate and a take-up control elastic supporting mechanism; the invention can automatically realize the wire rewinding operation, can realize the rapid wire rewinding, greatly improves the working efficiency, saves the labor and has high stability and safety performance.

The invention provides a mechanical device capable of realizing quantitative wire collection for spinning through improvement, and the device can set the rotation time of a wire collection rotating motor according to the wire collection amount, so that the wire collection working time suitable for the wire collection amount is obtained; the equipment is not idled and the resources are not wasted;

when the wire winding starts, the wire winding roller is placed on the main wire winding shaft and is close to the iron sheet; the take-up roller and the main take-up shaft form a whole body which is convenient to disassemble and assemble; when the equipment is not used, the volume of the equipment can be reduced, and the equipment does not occupy too much space;

when the wire rewinding is finished, the wire rewinding roller position pushing mechanism pushes the push rod to move from left to right so as to drive the wire rewinding roller to be automatically separated from the iron sheet, and the wire rewinding roller is convenient to take down;

the wire take-up control box comprises a wire take-up control box body, a control panel and an operation panel; the integral side surface of the take-up control box body is of a right-angled trapezoid structure; the right-angled trapezoid structure can meet the stress support and reasonably utilize the space; the control panel and the operation control panel are respectively fixed on the front side surface of the wire take-up control box body, so that the operation of workers is facilitated; the middle supporting plate is fixed inside the wire take-up control box body, so that the internal structure and the strength of the wire take-up control box are enhanced.

As an improvement of the above-mentioned technical solution,

the mechanical device capable of realizing quantitative take-up for spinning comprises a take-up control elastic supporting mechanism, a support base, a support upright rod, a spring and a support nut, wherein the support base is fixedly connected with the support upright rod; the lower end of the supporting upright rod is fixed on the supporting base, the spring is sleeved on the supporting upright rod, and the upper end of the spring is fixed with the supporting nut;

the wire take-up control bearing bottom plate is provided with a round hole, and the upper end of the supporting upright rod in the wire take-up control elastic supporting mechanism is directly pressed on the supporting nut through the round hole. In the wire winding process, the wire winding rotating motor can vibrate in the rotating process, so that noise can be produced; if the wire rewinding control box is directly placed on the table top or the ground, the vibration and the noise are obvious; in order to relieve vibration and noise, the mechanical device capable of realizing quantitative take-up for spinning disclosed by the invention adopts the take-up control elastic supporting mechanism shown in figures 11-12, a spring is sleeved on a supporting upright rod of the supporting mechanism, so that a take-up control bearing bottom plate is directly pressed on a supporting nut, and the spring isolates a take-up control box from the ground, so that vibration can be relieved, and less noise exists.

As an improvement of the above-mentioned technical solution,

the utility model provides a weaving is with mechanical device that can realize ration receipts line, it bears the sleeve to be provided with the push rod by the loss-resistant material is made on the right flank of receipts line control box. Because the right end of the main take-up shaft penetrates out of the take-up control box, the right end of the main take-up shaft is bound to rub against the right side plate of the take-up control box, and the take-up control box is damaged; therefore, the push rod bearing sleeve is added, and damage to the wire take-up control box can be reduced.

As an improvement of the above-mentioned technical solution,

the utility model provides a weaving is with mechanical device that can realize the ration and receive line, the inside of receiving the line control box is provided with a plurality of bending form reinforcing blocks. The bending reinforcing block is convenient for connection and reinforcement of the interior of the take-up control box body.

As an improvement of the above-mentioned technical solution,

a weaving is with mechanical device that can realize ration receipts line, it has all opened the louvre on the back of receipts line control box and the control panel, stretch into this serving in the left side control room at main receipts line axle and install rotor blade. The purpose of arranging the heat dissipation holes is to achieve the internal heat dissipation effect; however, the end of the main winding shaft extending into the left control chamber is provided with the rotating blade, and the rotating blade can be driven to rotate in the left control chamber along with the rotation of the main winding shaft, so that the air flow is formed in the left control chamber, and the heat dissipation in the left control chamber is further driven.

As an improvement of the above-mentioned technical solution,

the mechanical device capable of realizing quantitative take-up for spinning comprises a take-up roller, a winding roller and a control device, wherein the take-up roller comprises two circular take-up reels, three take-up rods and a central cylinder; the two round take-up reels are connected into a whole through the central cylinder; three V-shaped clamping grooves are formed in the two circular take-up reels respectively, the three take-up rods are clamped in the three V-shaped clamping grooves respectively, and each take-up rod is connected with the central cylinder through a tensioning spring. The invention adopts the take-up roller shown in figures 9-10 to take up the wire; the advantage of the receipts line cylinder of this structure is that whole size is reasonable, and overall structure is simple, blocks three receipts line pole through three V-arrangement draw-in groove, and easy dismouting and manufacturing accord with and receive the line requirement.

As an improvement of the above-mentioned technical solution,

the mechanical device capable of realizing quantitative take-up for spinning operates in the following mode;

firstly, the method comprises the following steps: firstly, a take-up roller is placed on a main take-up shaft and is close to an iron sheet; the take-up roller, the main take-up shaft and the iron sheet form a relative whole;

secondly, the method comprises the following steps: manually starting a power switch to enable the device to be in a working state;

thirdly, the method comprises the following steps: inputting a rotation time parameter of a wire take-up rotating motor through a keyboard and a mainboard, namely inputting the running time of wire take-up work to the device;

fourthly: the take-up rotating motor rotates, and the main take-up shaft drives the take-up roller to rotate so as to gradually realize take-up work; the rotating blades can be driven to rotate in the left control chamber along with the rotation of the main take-up shaft, so that airflow is formed in the left control chamber, and the left control chamber is driven to dissipate heat;

fifth, the method comprises the following steps: when the wire rewinding time is up, the keyboard and the main board control the wire rewinding rotating motor to stop rotating;

sixth: manually pressing the take-up roller to push a start-stop switch of the motor, starting the take-up roller to push the motor to rotate in the forward direction, and driving the take-up roller to push the push rod to move from left to right by the rotating end corresponding to the take-up roller position pushing motor through the sleeve end so as to separate the take-up roller from the iron sheet;

seventh: after the take-up roller is separated from the iron sheet, manually pressing the take-up roller position to push a start-stop switch of the motor, firstly stopping the take-up roller position by the start-stop switch to push the motor to rotate in the forward direction, then manually pressing the start-stop switch of the take-up roller position to push the motor, and then enabling the take-up roller position to push the motor to rotate in the reverse direction, so that the take-up roller position is driven to push the push rod to move from the right to the left, and the take-up roller position is driven to push the;

eighth: and manually turning off the power switch to ensure that the device is in a non-working state when power is off.

The invention has the following advantages: the invention provides a mechanical device capable of realizing quantitative take-up for spinning by improvement, and compared with the same type of equipment, the mechanical device has the following improvements and advantages;

the method has the advantages that: the device comprises a wire take-up control box, a wire take-up roller, a wire take-up control bearing bottom plate and a wire take-up control elastic supporting mechanism; the invention can automatically realize the wire rewinding operation, can realize the rapid wire rewinding, greatly improves the working efficiency, saves the labor and has high stability and safety performance.

The method has the advantages that: the invention provides a mechanical device capable of realizing quantitative wire collection for spinning through improvement, and the device can set the rotation time of a wire collection rotating motor according to the wire collection amount, so that the wire collection working time suitable for the wire collection amount is obtained; the equipment is not idled, and resources are not wasted.

The method has the advantages that: when the wire winding starts, the wire winding roller is placed on the main wire winding shaft and is close to the iron sheet; the take-up roller and the main take-up shaft form a whole body which is convenient to disassemble and assemble; the volume of the device can be reduced when the device is not used, and the device does not occupy too much space.

The advantages are that: when the wire winding is completed, the wire winding roller position pushing mechanism pushes the push rod to move from left to right so as to drive the wire winding roller to be automatically separated from the iron sheet, and the wire winding roller is convenient to take down.

The advantages are that: the wire take-up control box comprises a wire take-up control box body, a control panel and an operation panel; the integral side surface of the take-up control box body is of a right-angled trapezoid structure; the right-angled trapezoid structure can meet the stress support and reasonably utilize the space; the control panel and the control panel are respectively fixed on the front side surface of the wire-rewinding control box body, so that the control panel and the control panel are convenient for workers to control; the middle supporting plate is fixed inside the wire take-up control box body, so that the internal structure and the strength of the wire take-up control box are enhanced.

The method has the advantages that: the invention relates to a mechanical device capable of realizing quantitative take-up for spinning, wherein a take-up control elastic supporting mechanism comprises a supporting base, a supporting upright rod, a spring and a supporting nut; the lower end of the supporting upright rod is fixed on the supporting base, the spring is sleeved on the supporting upright rod, and the upper end of the spring is fixed with the supporting nut;

the wire take-up control bearing bottom plate is provided with a round hole, and the upper end of the supporting upright rod in the wire take-up control elastic supporting mechanism is directly pressed on the supporting nut through the round hole. In the wire winding process, the wire winding rotating motor can vibrate in the rotating process, so that noise can be produced; if the wire rewinding control box is directly placed on the table top or the ground, the vibration and the noise are obvious; in order to relieve vibration and noise, the mechanical device capable of realizing quantitative take-up for spinning disclosed by the invention adopts the take-up control elastic supporting mechanism shown in figures 11-12, a spring is sleeved on a supporting upright rod of the supporting mechanism, so that a take-up control bearing bottom plate is directly pressed on a supporting nut, and the spring isolates a take-up control box from the ground, so that vibration can be relieved, and less noise exists.

The method has the advantages that: according to the mechanical device capable of achieving quantitative take-up for spinning, the right side face of the take-up control box body is provided with the push rod bearing sleeve made of the wear-resistant material; because the right end of the main take-up shaft penetrates out of the take-up control box, the right end of the main take-up shaft is bound to rub against the right side plate of the take-up control box, and the take-up control box is damaged; therefore, the push rod bearing sleeve is added, and damage to the wire take-up control box can be reduced.

The method has the advantages that: the mechanical device capable of realizing quantitative take-up for spinning is characterized in that a plurality of bent reinforcing blocks are arranged inside the take-up control box body; the bending reinforcing block is convenient for connection and reinforcement of the interior of the take-up control box body.

The advantages are that (9): according to the mechanical device capable of achieving quantitative take-up for spinning, heat dissipation holes are formed in the back face of the take-up control box body and the control panel, and the end, extending into the left control chamber, of the main take-up shaft is provided with the rotating blade. The purpose of arranging the heat dissipation holes is to achieve the internal heat dissipation effect; however, the main winding shaft of the device extends into the end of the left control chamber, and the rotating blade is arranged on the end of the main winding shaft, and can drive the rotating blade to rotate in the left control chamber along with the rotation of the main winding shaft, so that airflow is formed in the left control chamber, and the left control chamber is further driven to dissipate heat.

The advantages are that: the invention relates to a mechanical device capable of realizing quantitative take-up for spinning, wherein a take-up roller comprises two circular take-up reels, three take-up rods and a central cylinder, and the two circular take-up reels are connected into a whole through the central cylinder; three V-shaped clamping grooves are formed in the two circular take-up reels respectively, the three take-up rods are clamped in the three V-shaped clamping grooves respectively, and each take-up rod is connected with the central cylinder through a tensioning spring. The invention adopts the take-up roller shown in figures 9-10 to take up the wire; the advantage of the receipts line cylinder of this structure is that whole size is reasonable, and overall structure is simple, and three receipts line pole is blocked through three V-arrangement draw-in groove, easy dismouting and manufacturing accord with and receive the line requirement.

Drawings

FIG. 1 is a schematic view of a wire take-up mechanism according to the present invention;

FIG. 2 is a schematic view of the mechanical take-up device after the take-up roller is pushed away after the take-up operation is completed;

FIG. 3 is a schematic top view of a take-up control box of the take-up mechanism of the present invention;

FIG. 4 is a schematic side view of a take-up control box of the take-up mechanism of the present invention;

FIG. 5 is a rear view of a take-up control box of the take-up mechanism of the present invention;

FIG. 6 is an internal view of a take-up control box of the take-up mechanism of the present invention;

FIG. 7 is a front view corresponding to FIG. 6;

FIG. 8 is a top view corresponding to FIG. 6;

FIG. 9 is a schematic view of the take-up roller of the present invention;

FIG. 10 is a schematic view of a take-up reel of the present invention having a circular take-up drum;

FIG. 11 is a schematic view of a take-up control spring support mechanism of the present invention;

fig. 12 is a side schematic view of the take-up control resilient support mechanism of the present invention.

Wherein: a take-up control box 1, a take-up roller 2, a take-up control bearing bottom plate 3, a take-up control elastic support mechanism 4, a main take-up shaft 5, a take-up control box body 6, a control panel 7, a control panel 8, a middle support plate 9, a take-up rotating motor 10, a take-up roller position pushing motor 11, a take-up roller position pushing push rod 12, a take-up roller position pushing motor rotating end 13, a take-up roller position pushing push rod left end sleeve end 14, a push rod bearing sleeve 15, a bent reinforcing block 16, an input keyboard and main plate 17, a display screen 18, a power switch 19, a take-up roller position pushing motor start-stop switch 20, a heat dissipation hole 21, a rotating blade 22, a support base 23, a support upright rod 24, a spring 25, a support nut 26, a round hole 27, a take-up reel 28, three take-up rods 29, a central barrel, magnet block 33, iron sheet 34.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 12, and the technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a mechanical device for textile which can realize quantitative take-up by improvement, as shown in figures 1-12, and can be implemented as follows; the device comprises a take-up control box 1, a take-up roller 2, a take-up control bearing bottom plate 3 and a take-up control elastic supporting mechanism 4; the wire take-up control box 1 is integrally fixed on the wire take-up control bearing bottom plate 3, and the wire take-up control bearing bottom plate 3 is supported by a plurality of wire take-up control elastic supporting mechanisms 4; the take-up roller 2 is positioned on a main take-up shaft 5 extending out of the take-up control box 1.

The wire take-up control box 1 comprises a wire take-up control box body 6, a control panel 7 and an operation panel 8; the integral side surface of the take-up control box body 6 is of a right-angled trapezoid structure; the control panel 7 and the control panel 8 are respectively fixed on the front side surface of the wire-rewinding control box body 6; a middle supporting plate 9 is fixed inside the take-up control box body 6;

the inside of the wire take-up control box 1 is divided into a left control chamber and a right rotating chamber by a middle support plate 9; a take-up rotating motor 10 is installed in the left control chamber, the left end of the main take-up shaft 5 extends into the middle support plate 9 and then is in butt joint with the output end of the take-up rotating motor 10, and the right end of the main take-up shaft 5 penetrates out of the take-up control box 1.

The outer side surfaces of the take-up rollers 2 are respectively fixed with a magnet block 33;

an iron sheet 34 is fixed on the main wire take-up shaft 5;

the inside of the wire rewinding control box 1 also comprises a wire rewinding roller position pushing mechanism, and the wire rewinding roller position pushing mechanism comprises a wire rewinding roller position pushing motor 11 and a wire rewinding roller position pushing push rod 12;

the wire rewinding roller position pushing motor 11 is located in the left control chamber, a rotating end 13 of the wire rewinding roller position pushing motor 11 is a lead screw, a left end of a wire rewinding roller position pushing push rod 12 is a sleeve end 14, the wire rewinding roller position pushing push rod 12 is connected with the rotating end 13 of the wire rewinding roller position pushing motor 11 through the sleeve end 14 at the left end, the right end of the wire rewinding roller position pushing push rod 12 extends out of the wire rewinding control box body 6, and when the wire rewinding roller position pushing motor 11 rotates, the rotating end 13 drives the wire rewinding roller position pushing push rod 12 to move left and right through the sleeve end 14;

an input keyboard and a main board 17 for controlling the wire rewinding rotating motor 10 to work and a display screen 18 are arranged on the control panel 7;

a power switch 19 is arranged on the control panel 8;

and a start-stop switch 20 of the wire take-up roller position pushing motor 11 is arranged on the control panel 8.

The invention provides a mechanical device capable of realizing quantitative take-up for spinning through improvement, which operates in the following mode;

firstly, the method comprises the following steps: firstly, a take-up roller 2 is placed on a main take-up shaft 5 and is close to an iron sheet 34; the take-up roller 2, the main take-up shaft 5 and the iron sheet 34 form a relative whole;

secondly, the method comprises the following steps: the power switch 19 is manually started to electrify the device to be in a working state;

thirdly, the method comprises the following steps: inputting a rotation time parameter of the wire take-up rotating motor 10 through a keyboard and a main board 17, namely inputting the operating time of wire take-up work to the device;

fourthly: the wire rewinding rotating motor 10 rotates, and the main wire rewinding shaft 5 drives the wire rewinding roller 2 to rotate, so that the wire rewinding work is gradually realized; with the rotation of the main take-up shaft 5, the rotating blade 22 can be driven to rotate in the left control chamber, so that air flow is formed in the left control chamber, and the left control chamber is driven to dissipate heat;

fifth, the method comprises the following steps: when the wire rewinding time is up, the keyboard and the main board 17 control the wire rewinding rotating motor 10 to stop rotating;

sixth: manually pressing the take-up roller position to push the start-stop switch 20 of the motor 11, starting the take-up roller position to push the motor 11 to rotate in the forward direction, and driving the take-up roller position to push the push rod 12 to move from left to right by the rotating end 13 corresponding to the take-up roller position pushing motor 11 through the sleeve end 14 so as to separate the take-up roller 2 from the iron sheet 34;

seventh: after the take-up roller 2 is separated from the iron sheet 34, manually pressing the take-up roller position to push the start-stop switch 20 of the motor 11, stopping the take-up roller position by the start-stop switch 20 to push the motor 11 to rotate in the forward direction, then manually pressing the take-up roller position to push the start-stop switch 20 of the motor 11, and at the moment, enabling the take-up roller position to push the motor 11 to rotate in the reverse direction to drive the take-up roller position to push the push rod 12 to move from right to left and withdraw to drive the take-up roller position to push the push rod;

eighth: the power switch 19 is manually turned off to disable the device when power is off.

The invention provides a mechanical device capable of realizing quantitative wire collection for spinning through improvement, and the device can set the rotation time of a wire collection rotating motor 10 according to the wire collection amount, so that the wire collection working time suitable for the wire collection amount is obtained; the equipment is not idled to waste resources;

when the wire winding starts, the wire winding roller 2 is placed on the main wire winding shaft 5 and is close to the iron sheet 34; the take-up roller 2 and the main take-up shaft 5 form a whole which is convenient to disassemble and assemble; when the equipment is not used, the volume of the equipment can be reduced, and the equipment does not occupy too much space;

when the wire winding is finished, the wire winding roller position pushing mechanism pushes the push rod 12 to move from left to right so as to drive the wire winding roller 2 to be automatically separated from the iron sheet 34, and the wire winding roller 2 is convenient to take down;

the wire take-up control box 1 comprises a wire take-up control box body 6, a control panel 7 and an operation panel 8; the integral side surface of the take-up control box body 6 is of a right-angled trapezoid structure; the right-angled trapezoid structure can meet the stress support and reasonably utilize the space; the control panel 7 and the control panel 8 are respectively fixed on the front side surface of the wire-rewinding control box body 6, so that the control of workers is facilitated; a middle supporting plate 9 is fixed inside the wire take-up control box body 6, so that the internal structure and the strength of the wire take-up control box 1 are enhanced;

the invention can automatically realize the wire rewinding operation, can realize the rapid wire rewinding, greatly improves the working efficiency, saves the labor and has high stability and safety performance.

The invention relates to a mechanical device capable of realizing quantitative take-up for spinning, wherein a take-up control elastic supporting mechanism 4 comprises a supporting base 23, a supporting upright rod 24, a spring 25 and a supporting nut 26; the lower end of the supporting upright rod 24 is fixed on the supporting base 23, the spring 25 is sleeved on the supporting upright rod 24, and the upper end of the spring 25 is fixed with the supporting nut 26;

the wire take-up control bearing bottom plate 3 is provided with a round hole 27, and the upper end of the support upright rod 24 in the wire take-up control elastic support mechanism 4 passes through the round hole 27, so that the wire take-up control bearing bottom plate 3 is directly pressed on the support nut 26. Because the wire take-up rotating motor 10 can vibrate in the rotating process in the wire take-up process, noise can be generated; if the wire rewinding control box 1 is directly placed on a table top or the ground, the vibration and the noise are obvious; in order to relieve vibration and noise, the mechanical device for textile capable of realizing quantitative take-up adopts the take-up control elastic supporting mechanism 4 shown in fig. 11-12, a spring 25 is sleeved on a supporting upright rod 24 of the supporting mechanism, so that the take-up control bearing bottom plate 3 is directly pressed on a supporting nut 26, and the spring 25 isolates the take-up control box 1 from the ground, so that vibration can be relieved, and less noise exists.

According to the mechanical device capable of achieving quantitative take-up for spinning, a push rod bearing sleeve 15 made of loss-resistant materials is arranged on the right side face of the take-up control box body 6; because the right end of the main take-up shaft 5 penetrates out of the take-up control box 1, the right end of the main take-up shaft 5 is bound to rub against the right side plate of the take-up control box 1, and the take-up control box 1 is damaged; therefore, the push rod bearing sleeve 15 is added, so that damage to the wire take-up control box 1 can be reduced.

According to the mechanical device capable of achieving quantitative take-up for spinning, the take-up control box body 6 is internally provided with the plurality of bent reinforcing blocks 16; the bent reinforcing block 16 is convenient for connection and reinforcement of the interior of the take-up control box body 6.

According to the mechanical device capable of achieving quantitative take-up for spinning, heat dissipation holes 21 are formed in the back face of the take-up control box body 6 and the control panel 8, and a rotating blade 22 is mounted at the end, extending into the left control chamber, of the main take-up shaft 5. The heat dissipation holes 21 are provided to achieve an internal heat dissipation function; however, the end of the main winding shaft 5 extending into the left control chamber is provided with the rotating blade 22, and along with the rotation of the main winding shaft 5, the rotating blade 22 can be driven to rotate in the left control chamber, so that the air flow is formed in the left control chamber, and the heat dissipation in the left control chamber is further driven.

The invention relates to a mechanical device capable of realizing quantitative take-up for spinning, wherein a take-up roller 2 comprises two circular take-up reels 28, three take-up rods 29 and a central cylinder 30, and the two circular take-up reels 28 are connected into a whole through the central cylinder 30; three V-shaped clamping grooves 31 are respectively formed in the two circular take-up reels 28, the three take-up rods 29 are respectively clamped in the three V-shaped clamping grooves 31, and each take-up rod 29 is connected with the central cylinder 30 through a tension spring 32. The invention adopts the take-up roller 2 shown in figures 9-10 to take up wires; the advantage of the receipts line cylinder 2 of this structure is that whole size is reasonable, and overall structure is simple, blocks three receipts line pole 29 through three V-arrangement draw-in groove 31, and easy dismouting and manufacturing accord with and receive the line requirement.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (2)

1. The utility model provides a weaving is with mechanical device that can realize ration receipts line which characterized in that: the device comprises a take-up control box (1), a take-up roller (2), a take-up control bearing bottom plate (3) and a take-up control elastic supporting mechanism (4); the wire take-up control box (1) is integrally fixed on the wire take-up control bearing bottom plate (3), and the wire take-up control bearing bottom plate (3) is supported by a plurality of wire take-up control elastic supporting mechanisms (4); the take-up roller (2) is positioned on a main take-up shaft (5) extending out of the take-up control box (1);

the wire take-up control box (1) comprises a wire take-up control box body (6), a control panel (7) and an operation panel (8);

the integral side surface of the take-up control box body (6) is of a right-angled trapezoid structure; the control panel (7) and the control panel (8) are respectively fixed on the front side surface of the wire-rewinding control box body (6); a middle supporting plate (9) is fixed inside the wire take-up control box body (6);

a push rod bearing sleeve (15) made of a wear-resistant material is arranged on the right side surface of the take-up control box body (6);

a plurality of bent reinforcing blocks (16) are arranged inside the take-up control box body (6); the bent reinforcing block (16) is convenient for connecting and reinforcing the interior of the take-up control box body (6);

the inside of the wire take-up control box (1) is divided into a left control chamber and a right rotating chamber by a middle support plate (9); a take-up rotating motor (10) is installed in the left control chamber, the left end of the main take-up shaft (5) extends into the middle support plate (9) and then is in butt joint with the output end of the take-up rotating motor (10), and the right end of the main take-up shaft (5) penetrates out of the take-up control box (1);

magnet blocks (33) are respectively fixed on the outer side surfaces of the take-up rollers (2);

an iron sheet (34) is fixed on the main wire take-up shaft (5);

the inside of the wire rewinding control box (1) also comprises a wire rewinding roller position pushing mechanism, and the wire rewinding roller position pushing mechanism comprises a wire rewinding roller position pushing motor (11) and a wire rewinding roller position pushing push rod (12);

the wire rewinding roller position pushing motor (11) is located in the left control chamber, a rotating end (13) of the wire rewinding roller position pushing motor (11) is a lead screw, the left end of the wire rewinding roller position pushing push rod (12) is a sleeve end (14), the wire rewinding roller position pushing push rod (12) is connected with the rotating end (13) of the wire rewinding roller position pushing motor (11) through the sleeve end (14) at the left end, the right end of the wire rewinding roller position pushing push rod (12) extends out of the wire rewinding control box body (6), and when the wire rewinding roller position pushing motor (11) rotates, the rotating end (13) drives the wire rewinding roller position pushing push rod (12) to move left and right through the sleeve end (14);

an input keyboard, a main board (17) and a display screen (18) for controlling the wire take-up rotating motor (10) to work are arranged on the control panel (7);

a power switch (19) is arranged on the control panel (8);

a start-stop switch (20) of a wire take-up roller position pushing motor (11) is arranged on the control panel (8);

the take-up control elastic supporting mechanism (4) comprises a supporting base (23), a supporting upright rod (24), a spring (25) and a supporting nut (26); the lower end of the supporting upright rod (24) is fixed on the supporting base (23), the spring (25) is sleeved on the supporting upright rod (24), and the upper end of the spring (25) is fixed with the supporting nut (26);

the wire take-up control bearing bottom plate (3) is provided with a round hole (27), and the upper end of a support upright rod (24) in the wire take-up control elastic support mechanism (4) is directly pressed on a support nut (26) through the round hole (27);

the back of the take-up control box body (6) and the control panel (8) are both provided with heat dissipation holes (21), and one end of the main take-up shaft (5) extending into the left control chamber is provided with a rotating blade (22).

2. The textile mechanical device capable of achieving quantitative take-up is characterized by comprising the following components in parts by weight: the wire take-up roller (2) comprises two circular wire take-up discs (28), three wire take-up rods (29) and a central cylinder (30); the two round take-up reels (28) are connected into a whole through a central cylinder (30); three V-shaped clamping grooves (31) are respectively formed in the two circular take-up reels (28), the three take-up rods (29) are respectively clamped in the three V-shaped clamping grooves (31), and each take-up rod (29) is connected with the central cylinder (30) through a tension spring (32).

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