KR101747796B1 - The auxiliaries automatic inserting method of dyeing simulator and thereof device - Google Patents

Abstract

The present invention relates to an IR dyeing test machine used for obtaining data by experimenting dyeing of a fabric in a laboratory. Specifically, when dyeing a fabric in a dyeing test machine, the preparation is automatically fed into each port in two steps The present invention relates to a method for automatic dispensing of an IR dyeing test machine and apparatus therefor.
In the present invention, a large number of ports can be installed in one IR dyeing lab, so that a large number of dyeing experiments can be performed at one time, thereby reducing waste of unnecessary energy and saving manpower and cost due to multiple tests.
In addition, in the present invention, during the dyeing experiment, the dyeing experiment is carried out automatically at the set temperature and time to the entire port simultaneously without stopping the IR dyeing experiment, and the dyeing experiment is performed under the same experimental conditions.
According to the present invention, a plurality of ports are fastened and fixed in an IR dyeing laboratory by one-touch method, and the port containing the test fabric is easily fastened or withdrawn by rotating the lever or pushing a button on each port fixing portion. It is a useful invention that can be easily operated and shorten the working time.

Description

TECHNICAL FIELD The present invention relates to an automatic dyeing method for dyeing an IR dye,

The present invention relates to an IR dyeing test machine used for obtaining data by experimenting dyeing of a fabric in a laboratory. Specifically, when dyeing a fabric in a dyeing test machine, the preparation is automatically fed into each port in two steps The present invention relates to a method for automatic dispensing of an IR dyeing test machine and apparatus therefor.

Generally, in laboratories for dyeing fabrics, accurate dyeing data is obtained by dyeing fabrics and dyes to be dyed prior to dyeing large quantities of fabrics.

Therefore, in order to obtain accurate data, conventionally, the dye solution is weighed and separated from the dye reservoir containing the dye, and then the dye is injected into the dye storage portion formed on the lid of the test port. In this state, the dye storage portion is sealed and fixed Secure the lid of the port to the port.

Dye powder is weighed to prepare a saline solution. Dye and test specimen are put into the experimental port and sealed.

The fixed port was fixed to the IR dyeing tester and the IR dyeing tester was operated to rotate the dye, water, and cloth inside the pot to shake the dye, thereby dyeing the dye and the fabric. Has been used.

As described above, the dyeing experiment work performed in a laboratory of a textile dyeing company and a textile dyeing company is very important process. It is very important that an error occurring in an experimenting operation occurs as a defect in the dyeing work in the field Work.

However, when dyeing experiment is performed in the conventional IR dyeing laboratory, it is difficult to inject the preparation into each port during the experiment, which is a difficult problem.

That is, in the conventional IR dyeing lab, the operation of the IR dyeing lab is stopped during the experiment, and then the operator operates the lever to insert the preparation.

Therefore, the conventional dispensing method and apparatus are complicated in operation because the operator has to manually operate the IR dyeing test machine while the IR dyeing test machine is stopped, and the IR dyeing test machine is opened to open the door and operate the dispensing lever Therefore, it is difficult to obtain accurate data because the internal temperature of the IR dyeing test machine is lowered, which causes the port to be cooled, resulting in a waste of energy and a change in the internal temperature of the port.

In addition, it is necessary to inject the preparation at precise temperature and time. However, in the conventional IR dyeing laboratory, precise data can not be obtained because the preparation can not be applied at the correct temperature and time.

In order to solve the above problems, the applicant has developed a method for automatically injecting a dye into a port for a dyeing laboratory and a device therefor (Korean Patent Laid-Open Publication No. 10-2011-0034164).

In the above patent, a dispenser is installed at the lower end of the lid of the port so that it can be opened and closed by the lever.

That is, the above-mentioned patent discloses that the lower part of the lid,

And a lever for opening and closing the discharge hole through which the preparation is discharged is provided on the side surface of the lid.

However, in the above patent, there is one preparation storage box in which the preparation is stored on the lid for sealing the port, and the preparation can be automatically inputted at a desired time regardless of the type of preparation. However, . , It is difficult to open the lever for opening and closing the preparation storage portion provided at the port in the IR dyeing test machine at a precise temperature and time, although it is possible to put various preparations into the inside of the port.

That is, in the conventional IR dyeing lab, the operation of the IR dyeing lab is stopped during the experiment, and then the operator operates the lever to insert the preparation.

Therefore, the conventional dispensing method and apparatus are complicated in operation because the operator has to manually operate the IR dyeing test machine while the IR dyeing test machine is stopped, and the IR dyeing test machine is opened to open the door and operate the dispensing lever Therefore, it is difficult to obtain accurate data because the internal temperature of the IR dyeing test machine is lowered, which causes the port to be cooled, resulting in a waste of energy and a change in the internal temperature of the port.

In addition, in the conventional IR dyeing test machine, when a plurality of ports are provided inside the apparatus, it is difficult to dispense a preparation of a port, so that it is not possible to install a large number of ports, and thus a large amount of experiments can not be performed at once.

Korean Patent No. 10-1565374 (Publication date October 28, 2015)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an IR dyeing laboratory in which a large number of ports capable of storing preparations are provided and each port is set at an accurate temperature and time without stopping the IR dyeing experiment The purpose of this is to enable automatic dispensing of pharmaceuticals.

It is a further object of the present invention to provide a method of separately injecting the dosing agent at each port installed inside the IR dyeing chamber at a desired time. It has the additional purpose of enabling dispensing of the preparation into the entire port at once.

It is a further object of the present invention to provide an IR dyeing laboratory in which an experimental port can be easily fastened and detached.

Means for solving the above problems will be described as follows.

IR dyeing experiment. It is installed in the inside of the test machine and has a rotating shaft rotated by a driving motor and a belt, and has a plurality of ports arranged at regular intervals at the upper and lower front and rear sides at an angle of 90 °. A port fastening step for fastening the port;

When the port is fixed to each port fixing part by the port fastening step, the door of the IR dyeing machine is closed, the test conditions including the time and temperature are input using the controller installed in the IR dyeing machine, and then the IR dyeing machine is operated IR dyeing lab operating phase;

The IR dyeing test machine is operated by the above IR dyeing test machine, and the rotation axis fixed to each port is rotated by the driving motor and the belt installed in the driving part of one side of the IR dyeing test machine, and the test fabric, If the time or temperature set in the controller reaches the set temperature in the state of being heated by the heater while shaking, the opening / closing device operation part installed at the position corresponding to the driving part installed in the IR dyeing laboratory operates to operate the dispensing lever for each port lid A step of operating the switching device;

A driving motor driving motor for driving the driving motor for driving the driving motor provided in the opening and closing device when the opening / closing device operates according to the data set in the controller;

A screw shaft rotating step in which the screw shaft is rotated by a belt fastened to the driving motor for dispensing when the dispenser driving motor is operated by the dispenser driving motor driving step;

A left and right operating member moving step in which, when the screw shaft is rotated by the screw shaft rotating step, the left and right operating members fastened to the screw shaft move to one side by the upper and lower guide rods fastened to the bracket in a sliding manner to push the plate;

  A moving axis moving step in which the moving axis provided at 90 ° intervals moves on the slider when the right and left operating members are operated by the left and right operating member moving steps and the pushing plate is moved;

A supporting shaft is installed on both sides of each bracket provided on the port fixing portion of the rotary shaft by the moving shaft moving step, and a plurality of moving shafts provided on the supporting shaft so as to be slidable and slidable are installed on the moving shaft, Closing switch for opening and closing the port for pushing one of the preparatory opening and closing levers of the port while the plunger located on the outer side of the preparation opening and closing lever of the port is moved;

A left and right operating stopping step of opening and closing a lever provided in each port by a lever opening and closing step for opening the first preparation opening and closing port of the port so that the preparation flows into the inside of the port and the left and right operating ports are stopped by the sensor;

  The right and left operating means are stopped by the left and right operating means stopping steps and when the other preparation is inputted by the data inputted by the controller in this state, Driving motor reverse rotation operation step;

A screw shaft reverse rotation step in which the screw shaft is reversely rotated by the belt fastened to the driving motor for mixing and dosing when the driving motor for driving the preparation is reversely operated by the reverse rotation driving step of the driving motor for injecting preparation;

A left and right operating member moving step in which, when the screw shaft is reversely rotated by the screw shaft reverse rotation step, the left and right operating members fastened to the screw shaft move in opposite directions by the upper and lower guide rods fastened to the bracket in a sliding manner;

  A moving axis reverse direction moving step in which the moving axis installed at 90 ° intervals on the slider moves in the opposite direction when the right and left operating members are operated by the right and left operating member moving steps and pull the slider;

A plurality of moving shafts fastened by fasteners are slid on both sides of the rotary shaft by the moving shaft reverse direction moving step, and a plurality of the double moving shafts are installed on the moving shaft so that one of the spur positioned outside the preparation opening and closing lever of each port moves Opening and closing the lever for opening and closing the secondary preparation of the port for pushing and unlocking one of the other preparation opening and closing levers of the port;

A right and a left operative stopping step of opening and closing a lever provided in each port by a lever opening and closing step for opening the second preparation opening and closing port of the port so that the preparation flows into the inside of the port and the right and left operating ports are stopped by the sensor; .

The construction of the present invention will be described as follows.

A door 11 that can be opened and closed is provided on the front surface of the IR dyeing machine main body 10 and a controller digital display window 12 for inputting various search conditions is provided, A port fixing part 200 having a rotation axis 201 installed on each surface of the rotary shaft 201 and having a plurality of port fixtures 300 for fastening and fixing a plurality of ports 400;

A discharge port opening / closing device (not shown) for operating the lever 464 for opening and closing the dispensing port of the port 400 fastened to the port fixture 300 is provided on the front surface of each port fixing part 200 provided at 90 ° to the rotary shaft 201 An operating portion 100;

A driving unit 500 having a driving motor and a speed reducer installed at one side of the port fixing unit 200 to rotate the rotary shaft 201 by fastening a belt between the speed reducer and the rotary shaft;

And a dispensing inlet opening and closing device operating part 100 for operating a lever 464 provided in the port so as to inject the preparation of the port 400 into the other side of the port fixing part 200.

The port fixing part 200 is horizontally disposed at the center of the IR dyeing machine main body 10 and includes a rotary shaft 201 having a central four-sided angle;

A "?" -Shaped bracket 202 having a vertical support on each side of the rotary shaft 201 and a plurality of horizontal supports on the lower end of the vertical support at regular intervals;

A port fixture 300 installed on a horizontal support of each of the brackets 202 so as to fix and withdraw the port by turning on and off the lever 343;

Fixtures 203 and 203 'for rotatably supporting the rotary shaft 201 by bearings are provided on both sides of the rotary shaft 201 so that one of the fixing members 203' is fixed to the body 10, And a pulley is fixed to one side of the rotary shaft 201 to fix the rotary shaft 201 to the rotary shaft 201. The rotary shaft 201 is fixed to the rotary shaft 201, And on the other side of the rotary shaft is provided a clogging device operating portion 100 for opening and closing the preparation storage portion of the port containing the preparation.

The opening and closing device operating part 100 is fixed to one side of the IR dyeing machine main body 10 and is provided with a motor holding plate on which a motor 101 and a speed reducer are fixed at the rear, And a pulley 105 provided on the tension pulley 106 and the rotating shaft 201. The tension pulley 106 and the tension pulley 106 are connected to each other by a screw shaft And a fixing bracket 108 formed with a fastening groove 109 for fixing and fastening a fastening hole 203 for supporting the rotary shaft 201 in the shape of "C "102);

A guide rod 111 is installed on the upper part and a lower part of the screw shaft 107, and a contact protrusion 114, which is in contact with the sensor, Left and right operation openings 110 protruding from the left and right sides;

A fastener 103 installed at the upper and lower parts of the fastener support 108 to move the guide rod 111 in the left and right direction;

A sensor 115 installed to the front of the bracket 102 provided with the guide bar 111 for controlling the driving motor for driving the screw shaft 107 for driving the left and right operation members 110, ) 115 ' (115 ");

A plate 113 installed at an end of the guide rod 111 and coupled to the center so as to penetrate the rotary shaft 201;

And a plurality of support rollers 213 are provided on the outer surface of the support plate 103 so as to correspond to the support plate 103 provided at the end of the guide rod 103 conveyed by the left and right operation members 110, And a support base 212 provided with a roller inner fixing roller 213 'having a length shorter than the support base 211 on which the roller outer fixing roller 213 is installed are provided at regular intervals, An operating plate 210 on which an abutment plate is positioned between the abutting portion 213 and the plate outer fixing roller 213;

A plurality of support plates 210 are installed at intervals of 90 degrees. Vertical supports are provided on both sides of the horizontal supports formed on the brackets 202 of the " a "shape, A left and right moving shaft 220 to be fastened;

The pair of left and right moving shafts 220 are provided at two positions on both sides of the positions of the levers of the ports, respectively. The right and left moving shafts 220 are moved in the left and right directions, (221) and (222).

The port fixture 300 is fixed to an upper portion of a horizontal support formed on a bracket of an "a" type, and has a circular rotary plate coupling groove 311 formed in an upper inner central portion thereof, A rectangular port fastening hole 312 is formed so as to insert a protruding fastener in a center portion of the port of the port, and a cutout portion is formed on the front surface of the rotary plate fastening groove 311 so that the lever 343 protrudes to the outside, A port fixture main body 310 having upper and lower operation fastening grooves 313 vertically operated by the elasticity of the spring 370 is formed on the other side of the cutout portion;

A spring 370 inserted into the upper and lower operation fastening grooves 313;

A push button 331 is vertically formed on the upper portion of the spring 370 and a push button 331 is provided on one side of the push button 331 Upper and lower operation openings 330 formed by protruding lower fixing protrusions 332;

A lever 343 is inserted into a rotary plate coupling groove 311 formed on the upper portion of the port fixture body 310 so as to protrude to the outside through a cutout portion and a rectangular protrusion And a fixing hole 342 into which the fixing protrusion 332 of the upper and lower operation tool 330 is inserted is formed at a portion where the lever 343 is provided. A rotary plate 340 protruding from the fixing protrusion 344;

A spring 360 which is fixed to the fixing protrusion 344 of the rotary plate 340 and the other is fixed to the spring insertion portion 314 by a fixing pin 320 so as to pull the rotary plate 340;

A port fastening hole 351 having the same shape as the port fastening hole 341 formed in the rotary plate 340 is formed at the upper inner center portion by being fastened to the upper portion of the port fastening body 310 fastened to the rotary plate 340 And a lid 350 so that the fastening port of the port is inserted and fastened.

As described above, since a large number of ports can be installed in a single IR dyeing laboratory, it is possible to perform a large number of dyeing experiments at once, thereby reducing unnecessary energy waste and saving manpower and cost due to multiple tests have.

In addition, the present invention allows the dyeing experiment to be performed at the same temperature and time without stopping the IR dyeing experiment during the dyeing experiment, so that the dyeing experiment is performed under the same experimental conditions by automatically feeding the preparation to the entire port twice automatically, Data can be obtained.

According to the present invention, a plurality of ports are fastened and fixed in an IR dyeing laboratory by one-touch method, and the port containing the test fabric is easily fastened or withdrawn by rotating the lever or pushing a button on each port fixing portion. So that the operation can be simplified and the working time can be shortened.

In addition, the present invention is a useful invention that is easy to manufacture due to its simple structure, and its structure is divided into parts, which is very easy to repair in case of breakage.

1 is a block diagram illustrating the method of the present invention.
2 is a schematic perspective view showing the entirety of the present invention.
3 is a plan view showing the installation state of the present invention
Fig. 4 is a schematic overall perspective view showing an assembled state in a state in which the case of the present invention is removed. Fig.
5 is a schematic overall front view showing an assembled state in a state in which the case of the present invention is removed.
6 is a schematic overall plan view showing an assembled state in a state in which the case of the present invention is removed;
Fig. 7 is an enlarged perspective view of the main part showing the opening / closing device operation part of the present invention
8 is an enlarged front view of a recessed portion extracting the opening and closing device operating portion of the present invention
9 is an enlarged plan view of the recessed portion showing the opening / closing device operation portion of the present invention
Fig. 10 is an exploded perspective view of the main part showing the port fixing portion of the present invention
Figure 11 is a schematic perspective view of the port fastener of the present invention.
12 is a perspective view of the port fixture of the present invention
FIG. 13 is a plan view showing a state in which the rotary plate of the port fixture of the present invention is rotated,
14 is a side sectional view showing a state in which the rotary plate of the port fixture of the present invention is rotated to open the port fastening hole
Fig. 15 is a schematic perspective view showing a state in which the rotary plate of the port fixture of the present invention is rotated to close the port fastening hole
16 is a plan view showing a state in which the rotary plate of the port fixture of the present invention is rotated so that the port fastening hole is closed.
17 is a side sectional view showing a state in which the rotary plate of the port fixture of the present invention is rotated and the port fastening hole is closed
18 is a schematic perspective view showing a conventional port used in the present invention.
FIG. 19 is a schematic exploded perspective view showing a state in which the conventional lid cover used in the present invention is separated.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In the present invention, reference numeral 400 is a port, 410 is a port body, 420 is a fastener fastened to the upper part of the lid, 430 is a lid fastened to the upper part of the port, and 491 is a preparation storage part.

FIG. 1 is a block diagram showing the method of the present invention, FIG. 2 is a schematic perspective view showing the entirety of the present invention, FIG. 3 is a plan sectional view showing an installation state of the present invention, And FIG. 5 is a schematic overall front view showing an assembled state in a state in which the case of the present invention is removed, FIG. 6 is a schematic overall plan view showing an assembled state in a state in which the case of the present invention is removed, FIG. 7 is an enlarged perspective view of the operating portion of the opening and closing device of the present invention, FIG. 8 is an enlarged front view of a recessed portion showing the operating portion of the opening and closing device of the present invention, 11 is a schematic perspective view showing the port fixture of the present invention, and FIG. 12 is a perspective view of the port fixture of the present invention. FIG. FIG. 13 is a plan view showing a state in which a rotary plate of the port fixture of the present invention is rotated to open a port fastening hole, FIG. 14 is a side sectional view showing a state in which a rotary plate of the port fastening fixture of the present invention is rotated, 16 is a plan view showing a state in which the rotary plate of the port fixture of the present invention is rotated and the port fastening hole is closed, and FIG. 17 is a plan view showing a state in which the port fastening hole is closed. Is a side cross-sectional view showing a state where the rotary plate of the port fixture of the present invention is rotated to close the port fastening hole.

Put the fabric and water in each port and then dispense the preparation into the dispensing inlet on the cover.

At this time, put the preparation to be tested into each of the two preparation storage parts formed on the cover, and rotate the lever so that the preparation inlet is sealed.

18 and 19, the lid containing the preparation is hermetically sealed at the upper part of the pot containing the fabric and water as described above, and the fixture is fastened and fixed to the upper part of the lid in this state.

The configuration in which the preparation is inserted into the lid fastened to the upper portion of the port and the provision inlet is opened and the lid and the fastener are fastened to the upper portion of the port are now widely used.

When the test fabric and the lid containing the preparation are coupled to the respective ports as described above, the door 11 installed on the front surface of the IR dyeing machine body 10 is opened as shown in FIGS. 2 and 13, And the ports are fastened and fixed to the first and second portions 200, respectively.

According to the present invention, when the ports are to be fixed to the respective port fixtures 300 installed in the port fixing part 200, the respective port fixtures 300 provided on the rotary shaft 201, as shown in FIGS. 12 and 13, The spring 340 is rotated by the lever 343 so that the fixing pin 344 fixed to the lower end of the lever of the rotary plate 340 and the spring insertion portion 314, The spring 360 is extended by the spring 320.

As the rotary plate 340 is rotated as described above, the fixing protrusion 332 formed on the upper and lower operation member 330 is moved up and down by a fixing hole 342 formed on one side of the rotary plate 340 so that the lever 343 moves along the cut- And is fastened to the fixing hole 342 by the spring 370 fastened to the lower end of the sphere 330 and the rotating plate 340 is stopped.

According to the present invention, when the rotary plate 340 rotates and the fixing protrusions 332 of the upper and lower actuating members 330 are fixedly caught by the fixing holes 342, a rectangular fixing hole 341 And the port fastening holes 351 and 341 formed in the lid 350 and the port fixture 310 are made to pass through a rectangle having the same shape.

In the state where the lid 350 is aligned with the port fastening holes 351, 341 and 312 of the rotary plate 340 and the port fixture 310 in the same shape, The fastener is inserted through the port fastening holes 351, 341 and 312 of the lid 350 and the rotary plate 340 and the port fastener 310 when a rectangular fastener protruding upward is inserted.

At this time, the rectangular fastener protruding from the upper portion of the fastener fixing the port is in a state of being fixed to the center by a circular support and projecting to both sides as shown in Figs.

When the push button 331 protruding to the upper portion of the lid 350 is pressed in the upper and lower operation tool 330 in the state where the port fastener is inserted as described above, So that the fixing protrusion 332 formed on the upper and lower operation tool 330 is lowered from the fixing hole 342 of the rotating plate 340.

The rotation plate 340 rotates in the rotation plate engagement groove 311 formed in the port fixing portion 310 by the force of the spring 360 installed on the spring insertion portion 314, So that the lever 343 rotates on the incision and returns to the original position.

When the rotation plate 340 is rotated in the state where the port is engaged, the port fastening hole 341 formed at the upper center of the rotation plate 340 is rotated at the lower end of the center of the fastening hole provided in the port, The rectangular port fastening holes 341 formed in the rotary plate 340 are rotated by the port fastening holes 351 and 312 of the lid 350 and the port fastening holes 310 so that the rectangular port fastening holes 341 formed in the rotary plate 340, The port 341 is rotated at the lower end of the rectangular fastener formed at the center of the fastener fastened to the port to receive the lower end of the fastener so that the port is firmly fixed to the port fastener 310. [

The port is fixed to each of the port fixtures 310 provided in the IR dyeing machine main body 10 as described above and then the door 11 provided on the front surface of the IR dyeing machine main body 10 is closed, When the IR dyeing test machine is operated after inputting the experimental conditions using the display window 12, the motor and the speed reducer of the driving unit 500 installed on one side of the IR dyeing machine main body 10 operate to rotate the rotating shaft 201.

Accordingly, the respective ports fastened and fixed to the port fixing part 310 of the port fixing part 200 are rotated by the rotation of the rotating shaft 201, so that the water and fabric in the interior are shaken and the dye is absorbed and dyed .

On the other hand, the method of heating the port in the IR dyeing tester is generally used, so no detailed description is given.

According to the present invention, when the preparation is supplied at a predetermined temperature or time during the dyeing experiment, the opening and closing device operating part 100 installed on one side of the IR dyeing machine main body 10 operates.

That is, when the opening and closing device operation part 100 is operated, the drive motor 101 and the speed reducer provided in the bracket 102 are operated. As a result, the pulley 104 installed in the drive motor and the pulley 105 and the tension adjusting pulley 106, the screw shaft 107 is rotated.

When the screw shaft 107 rotates as described above, the left and right actuators 110 installed on the screw shaft 107 move.

That is, the left and right operation members 110 are provided with fasteners 103 (see FIG. 10) provided on the upper and lower portions of the fastener support 108 fixed to the bracket 102, When the screw shaft 107 rotates, the left and right actuating openings 110 are moved horizontally by the guide rods 111.

According to the present invention, when the left and right actuating openings 110 are moved by the rotation of the screw shaft 107, the plate 113 installed at the end of the guide rod 111 moves together with the plate 113, The operating plate 210 which is in contact therewith moves together.

A plurality of long and short supports 211 and 212 are provided at predetermined intervals on the outer side of the operation plate 210 and rollers 213 and 213 'are installed on the supports 211 and 212, 213 and 213 'are in contact with the inside and the outside of the plate 113 and the plate 113 is moved by the movement of the left and right actuating openings 110, the plate moves together.

According to the present invention, the roller 213 of the long support base 211 formed on the operation plate 210 passes through the through hole formed at the center of the plate 113 and then passes through the through- The rollers 213 and 213 'are brought into contact with the inside and the outside of the plate 113 by bending and fixing the rollers 213 in the bent portions.

As described above, according to the present invention, fasteners 203 and 203 'with bearings are fastened to both ends of the rotary shaft 201, and fasteners 203' And the other fastener 203 is inserted and fixed in the fastening groove 109 formed in a " C "shape on the fastener support base 108, so that the rotary shaft 201 is rotated in a state where it is horizontally installed.

On both sides of the bracket 202 formed in the respective port fixing portions 200 at intervals of 90 degrees on the rotary shaft 201, support rods are vertically protruded and the support rods 220 Respectively, and each of the moving shafts 220 is fixed to the operating plate 210.

Accordingly, when the rotating shaft 201 rotates, the operating plate 210 is rotated by the moving shaft 220 installed on the support of the bracket 202.

The rollers 213 and 213 provided on the long and short support bars 211 and 212 provided on the outer side of the operation plate 210 are fixed to the rollers 213 and 213 installed on the operation plate 210 in a state where the plate 113 is fixed. 213) 213 rotate on the plate 210.

According to the present invention, when the left and right operating members 110 are moved by the rotation of the screw shaft 107, the plate 113 integrally formed with the left and right operating members 110 moves together with the guide rod 111, Thus, the actuating plate 210, which is fixed by the rollers 213 and 213 ', moves together.

Therefore, each of the moving shafts 220 installed on the operating plate 210 is simultaneously moved, so that one of the two sets 221 and 222 provided on the moving shaft 220 is provided with a lever So that the dispensing opening is opened.

When the dispensing inlet is opened as described above, the water contained in the port moves up and down the port due to the rotation of the rotating shaft 201, so that water flows into the preparation storage part and is mixed with the auxiliary agent to dye the fabric.

According to the present invention, when the screw shaft 107 rotates, the right and left operating members 110 move, and the connecting projections 114 provided on the rear surface of the middle portion of the right and left operating members 110 are connected to the sensors 115 " The drive motor 101 is stopped by the controller.

Then, when the IR dyeing test machine is operated to perform the dyeing experiment, the drive motor 101 is rotated in the reverse direction, so that the screw shaft 107 rotates in the reverse direction. Therefore, The left and right operation openings 110 fastened to the fastener support 107 are moved in the opposite direction by the guide rods 111 fastened to the fastener support rods 108.

At this time, the actuating plate 210 to which the movable shaft 220 is fixed is moved together with the rollers 213 and 213 'fixed to the plate 113, And the driving motor causes the connection protrusion 114 provided on the rear surface of the middle portion of the right and left operation tool 110 to move to the other sensor 115 ' And is stopped.

The driving motor 101 of the opening and closing device operating portion 100 stops and waits at the position of the sensor 115 provided at the middle portion among the sensors provided in the bracket 102 and drives the driving motor 101 When the contact protrusions 114 provided on the left and right operating tools 110 are engaged with the sensors 115 'and 115' on both sides after the operation of the first and second actuators 101 and 101 is performed,

At this time, the pushing and putting lever of the port is operated by the pushers 221 and 222 provided on the moving shaft 220 to be opened.

An embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as it is obvious to those skilled in the art.

10. IR dyeing machine body 11. Door
12. Controller digital display
100. Opening / closing device operating part 101. Driving motor
102. 202. Bracket 103. Fastener
104. 105. Pulley 106. Tension control pulley
107. Screw shaft 108. Clamp support
109. Fastening groove
110. Right and left operation part 111. Guide rod
113. Plate 115. 115 '. 115 ".
200. Port fixing part 201. Rotation axis
203. 203. Fixture
210. Operation plate 211. 212. Support
213. 213 'rollers
220. Movement axis 221. 222. The pusher
300. Port fixture
310. Port fixture body 311. Rotary plate fastening groove
312. 341. 351. Port fastening hole 313. Upper and lower operation fastening groove
314. Spring tightening groove
320. Fixing pin
330. Vertical operation 331. Push button
332. 344. Fixing projection
340. Rotating plate 342. Fixing hole
343. Levers
350. Cover
360. 370. Spring
500. Drive

Claims (5)

IR dyeing experiment. It is installed in the inside of the test machine and has a rotating shaft rotated by a driving motor and a belt, and has a plurality of ports arranged at regular intervals at the upper and lower front and rear sides at an angle of 90 °. A port fastening step for fastening the port;
When the port is fixed to each port fixing part by the port fastening step, the door of the IR dyeing machine is closed, the test conditions including the time and temperature are input using the controller installed in the IR dyeing machine, and then the IR dyeing machine is operated IR dyeing lab operating phase;
The IR dyeing test machine is operated by the above IR dyeing test machine, and the rotation axis fixed to each port is rotated by the driving motor and the belt installed in the driving part of one side of the IR dyeing test machine, and the test fabric, If the time or temperature set in the controller reaches the set temperature in the state of being heated by the heater while shaking, the opening / closing device operation part installed at the position corresponding to the driving part installed in the IR dyeing laboratory operates to operate the dispensing lever for each port lid A step of operating the switching device;
A driving motor driving motor for driving the driving motor for driving the driving motor provided in the opening and closing device when the opening / closing device operates according to the data set in the controller;
A screw shaft rotating step in which the screw shaft is rotated by a belt fastened to the driving motor for dispensing when the dispenser driving motor is operated by the dispenser driving motor driving step;
A left and right operating member moving step in which, when the screw shaft is rotated by the screw shaft rotating step, the left and right operating members fastened to the screw shaft move to one side by the upper and lower guide rods fastened to the bracket in a sliding manner to push the plate;
A moving axis moving step in which the moving axis provided at 90 ° intervals moves on the slider when the right and left operating members are operated by the left and right operating member moving steps and the pushing plate is moved;
A supporting shaft is installed on both sides of each bracket provided on the port fixing portion of the rotary shaft by the moving shaft moving step, and a plurality of moving shafts provided on the supporting shaft so as to be slidable and slidable are installed on the moving shaft, Closing switch for opening and closing the port for pushing one of the preparatory opening and closing levers of the port while the plunger located on the outer side of the preparation opening and closing lever of the port is moved;
A left and right operating stopping step of opening and closing a lever provided in each port by a lever opening and closing step for opening the first preparation opening and closing port of the port so that the preparation flows into the inside of the port and the left and right operating ports are stopped by the sensor;
The right and left operating means are stopped by the left and right operating means stopping steps and when the other preparation is inputted by the data inputted by the controller in this state, Driving motor reverse rotation operation step;
A screw shaft reverse rotation step in which the screw shaft is reversely rotated by the belt fastened to the driving motor for mixing and dosing when the driving motor for driving the preparation is reversely operated by the reverse rotation driving step of the driving motor for injecting preparation;
A left and right operating member moving step in which, when the screw shaft is reversely rotated by the screw shaft reverse rotation step, the left and right operating members fastened to the screw shaft move in opposite directions by the upper and lower guide rods fastened to the bracket in a sliding manner;
A moving axis reverse direction moving step in which the moving axis installed at 90 ° intervals on the slider moves in the opposite direction when the right and left operating members are actuated by the right and left operating member moving steps to pull the slider;
A plurality of moving shafts fastened by fasteners are slid on both sides of the rotating shaft by the moving shaft backward moving step and two sets are provided on the moving shaft so that one of the platters located on the outer side of the preparation opening and closing lever of each port is moved Opening and closing the lever for opening and closing the secondary preparation of the port for pushing and unlocking one of the other preparation opening and closing levers of the port;
A right and a left operative stopping step of opening and closing a lever provided in each port by a lever opening and closing step for opening the second preparation opening and closing port of the port so that the preparation flows into the inside of the port and the right and left operating ports are stopped by the sensor; Wherein the method comprises the steps of:
A door 11 that can be opened and closed is provided on the front surface of the IR dyeing machine main body 10 and a controller digital display window 12 for inputting various search conditions is provided, A port fixing part 200 having a rotation axis 201 installed on each surface of the rotary shaft 201 and having a plurality of port fixtures 300 for fastening and fixing a plurality of ports 400;
A preparation opening and closing lever 464 for opening and closing the preparation inlet of the port 400 fastened to the port fixture 300 is provided on the front surface of each port fixing portion 200 provided at 90 ° to the rotary shaft 201, An input port opening / closing device operation part (100);
A driving unit 500 having a driving motor and a speed reducer installed at one side of the port fixing unit 200 to rotate the rotary shaft 201 by fastening a belt between the speed reducer and the rotary shaft;
The port fixing section 200 includes a dispensing inlet opening and closing device operating section 100 for operating a dispensing opening and closing lever 464 provided at an upper portion of the port so as to inject the preparation into the port 400. [ Automatic dispenser for dyeing laboratory.
3. The method of claim 2,
The port fixing part 200 is horizontally disposed at the center of the IR dyeing machine main body 10 and includes a rotary shaft 201 having a central four-sided angle;
A "?" -Shaped bracket 202 having a vertical support on each side of the rotary shaft 201 and a plurality of horizontal supports on the lower end of the vertical support at regular intervals;
A port fixture 300 installed on a horizontal support of each of the brackets 202 so as to fix and withdraw the port by turning on and off the lever 343;
The pulley is fixed to one side of the rotary shaft 201 and the pulley is fixed to the rotary shaft 201. The rotary shaft 201 is rotatably supported by a bearing, Wherein the automatic dyeing apparatus comprises:
3. The method of claim 2,
The opening and closing device operation part 100 is fixed to one side of the IR dyeing machine main body 10 and has a motorized plate on which a motor 101 and a speed reducer are fixed at a rear end and a pulley 105 is installed on one side of the front side A threaded shaft plate on which a screw shaft 107 is fixed and a tension adjusting roller 106 is mounted on the middle lower end of the pulley 104 and a tension adjusting roller 106 and a pulley 105 And a fixing bracket 109 for fixing the rotation shaft 201 in a state of being inserted into the fixing groove 203. The fixing bracket 109 is fixed to the bracket 110 by a belt (102);
A guide rod 111 is installed on the upper part and a lower part of the screw shaft 107, and a contact protrusion 114, which is in contact with the sensor, Left and right operation openings 110 protruding from the left and right sides;
A fastener 103 installed at the upper and lower parts of the fastener support 108 to move the guide rod 111 in the left and right direction;
A sensor 115 installed to the front of the bracket 102 provided with the guide bar 111 for controlling the driving motor for driving the screw shaft 107 for driving the left and right operation members 110, ) 115 ' (115 ");
A plate 113 installed at an end of the guide rod 111 and coupled to the center so as to penetrate the rotary shaft 201;
And a plurality of support rollers 213 are provided on the outer surface of the support plate 103 so as to correspond to the support plate 103 provided at the end of the guide rod 103 conveyed by the left and right operation members 110, And a support base 212 provided with a roller inner fixing roller 213 'having a length shorter than the support base 211 on which the roller outer fixing roller 213 is installed are provided at regular intervals, An operating plate 210 on which an abutment plate is positioned between the abutting portion 213 and the plate outer fixing roller 213;
A plurality of support plates 210 are installed at intervals of 90 degrees. Vertical supports are provided on both sides of the horizontal supports formed on the brackets 202 of the " a "shape, A left and right moving shaft 220 to be fastened;
The pair of left and right moving shafts 220 are provided at two positions on both sides of the positions of the levers of the ports, respectively. The right and left moving shafts 220 are moved in the left and right directions, (221) (222). The automatic dispensing apparatus of the IR dyeing lab.
3. The method of claim 2,
The port fixture 300 is fixed to an upper portion of a horizontal support formed on a bracket of an "a" type, and has a circular rotary plate coupling groove 311 formed in an upper inner central portion thereof, A rectangular port fastening hole 312 is formed so as to insert a protruding fastener in a center portion of the port of the port, and a cutout portion is formed on the front surface of the rotary plate fastening groove 311 so that the lever 343 protrudes to the outside, A port fixture main body 310 having upper and lower operation fastening grooves 313 vertically operated by the elasticity of the spring 370 is formed on the other side of the cutout portion;
A spring 370 inserted into the upper and lower operation fastening grooves 313;
A push button 331 is vertically formed on the upper portion of the spring 370 and a push button 331 is provided on one side of the push button 331 Upper and lower operation openings 330 formed by protruding lower fixing protrusions 332;
A lever 343 is inserted into a rotary plate coupling groove 311 formed on the upper portion of the port fixture body 310 so as to protrude to the outside through a cutout portion and a rectangular protrusion And a fixing hole 342 into which the fixing protrusion 332 of the upper and lower operation tool 330 is inserted is formed at a portion where the lever 343 is provided. A rotary plate 340 protruding from the fixing protrusion 344;
A spring 360 which is fixed to the fixing protrusion 344 of the rotary plate 340 and the other is fixed to the spring insertion portion 314 by a fixing pin 320 so as to pull the rotary plate 340;
A port fastening hole 351 having the same shape as the port fastening hole 341 formed in the rotary plate 340 is formed at the upper inner center portion by being fastened to the upper portion of the port fastening body 310 fastened to the rotary plate 340 And a lid (350) for fastening the fastening port of the port.

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