KR101995769B1 - Cooling Control System for Sheeted Rubber of BOM(Batch Off Machine) - Google Patents

Abstract

The present invention relates to a sheet rubber cooling system of a batch off machine, comprising: an infrared thermometer installed in a loading conveyor for measuring the temperature of a sheet rubber moving along a rail of a rack drive; A cooling device installed in the rack drive for lowering the temperature of the sheet rubber moving along the rails when the temperature measured by the infrared temperature measuring device exceeds the set range; And a controller for controlling driving of the cooling device so that the sheet rubber can be cooled through the cooling device when the temperature measured by the infrared temperature measuring device exceeds the set range. As a result, the cooling efficiency is increased due to the formation of a flow in a certain direction together with the surrounding air. As a result, when the rubber is loaded on the pallet, the adhesion between the rubber and the scorch It is possible to solve the problem that surface defects are generated.

Description

Technical Field [0001] The present invention relates to a sheet rubber cooling system for a batch off machine,

The present invention relates to a sheet rubber cooling system for a batch off machine, and more particularly to a sheet rubber cooling system for a batch off machine which comprises a sheet rubber produced in a refining process step for compounding rubber corresponding to the first fixation of tire manufacturing, And more particularly, to a sheet rubber cooling system for a batch off-machine which can efficiently cool the sheet rubber at the time of heating.

In general, the refining process is a process of sheeting a rubber used in semi-finished products for tire manufacturing. The raw rubber and other chemicals are compounded in a mixer and discharged in the form of a lump. In this case, the temperature is 140 ~ 180 ℃ for the mixture not containing the vulcanizing agent and 110 ~ 130 ℃ for the last mixture containing the vulcanizing agent.

The apparatus for molding the sheet rubber as described above is constituted as shown in Figs.

Referring to Figs. 1 and 2, a configuration of a general batch off machine will be described.

The batch off machine comprises a mixer device 1 for mixing raw materials, a molding device (not shown) for molding raw materials mixed by the mixer device 1 into sheet rubber, A dipping tank 3 in which a dipping solution is stored for cooling the sheet rubber moved through the conveying conveyor 2 and a dipping tank 3 for supplying the dipping solution supplied from the dipping tank 3 to the sheet rubber And a rack drive 5 for cooling while moving the sheet rubber on which the dipping solution is sprayed.

The rack drive 5 is provided with a rail 5-1 for horizontally feeding and transporting the sheet rubber and a damping solution for preventing the dipping solution sprayed on the sheet rubber moving through the rail 5-1 from flying around the placement off machine And a suction port 5-3 for sucking in air to cool the sheet rubber moved by the rail 5-1.

And a loading conveyor 6 for loading the sheet rubber moved through the rails 5-1.

The lump-shaped rubber is subjected to a tire refining process and is made of sheet rubber through a batch off machine constructed as described above, which passes through a roller die in a sheet-fed rubber cooling system as shown in Figs. 1 and 2, Is cooled and dried in a batch off machine via a conveying conveyor 2, and then is loaded on a pallet via a loading conveyor and moved to the next process.

As shown in Fig. 2, in the cooling of the sheet rubber in the above batch-off machine, air is sucked from the outside of the sheet rubber moving by the rails 5-1 to supply air to the inside of the rack drive 5, Thereby cooling the sheet rubber.

In the prior art for cooling the heat generated from the sheeted rubber after the refining process, it is first cooled in the dipping solution tank and further cooled by a second cooling fan.

First, the dipping solution tank is a technique for lowering the temperature of the rubber by spraying a mixture of dipping solution and water, which is favorable for adhesion to the sheeted rubber.

Secondly, the installation of the cooling fan is a technique of cooling the sheeted rubber by secondary cooling by installing at least one cooling fan to supply outside air.

The first of these is that a mixture of dipping solution and water is quite effective in lowering the high temperature of the rubber, and also the rubber mixture is injected into the underground dipping solution tank and injected again into the rubber through the dipping solution pump. It has the advantage of being able to do it.

However, there is a disadvantage in that when the rubber is loaded on the sheet-like rubber, cooling is not sufficient and problems such as adhesion, scorch (phenomenon of early flow) and surface defects are caused between the rubber.

In addition, there is a problem in the post-fixing work due to the problem of adhesion of rubber between the pallets when the pallet is loaded, and this phenomenon is more serious in the summer when the cooling effect is lowered due to the high temperature of the outside air itself.

As a prior art for solving the above problems, Korean Patent Laid-Open Publication No. 2013-0062082 entitled " Automatic cooling system of sheet rubber in tire refining process "is a system in which a raw rubber rubber and other chemicals, Roller die to produce in the form of; A draw-out conveyor for conveying the sheet rubber discharged from the roller die to a dipping and cooling area; A dipping solution tank having a dipping agitator for applying a release solution to the sheet rubber; A batch-off device for cooling and drying the sheet rubber to which the release solution is applied; A sensor for sensing the temperature of the sheet rubber drawn through the roller die, a temperature sensor for sensing the temperature sensed by the sensor, And a master logic operation controller (PLC) for transferring the temperature set in the PCC to the dipping solution tank. The process control computer (PCC)

However, since the above-mentioned prior art also uses the dipping solution to cool the sheet rubber, there is not enough cooling for the sheeted rubber, so that when the rubber is loaded, the sticking phenomenon and the scorch And the like.

In addition, when the pallet is loaded, there is a problem in the post-fixing work due to the adhesion problem of the rubber, and this phenomenon still has a problem that occurs in the summer which lowers the cooling effect due to the high temperature of the outside air itself.

Korean Patent Publication No. 2013-0062082

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems. It is an object of the present invention to provide a sheet rubber cooling system of a batch off machine in which compressed air supplied from an air pump is quickly discharged to form a flow in a certain direction together with the surrounding air so as to increase the cooling efficiency.

The present invention also relates to a sheet rubber cooling method of a batch off-machine in which the temperature of a sheet rubber moved along a rail is checked in real time and the amount of compressed air is adjusted on the basis of the checked temperature, System. ≪ / RTI >

The present invention provides, as means for achieving the above object

An infrared thermometer installed on the loading conveyor for measuring the temperature of the sheet rubber moving along the rails of the rack drive; A cooling device installed in the rack drive for lowering the temperature of the sheet rubber moving along the rails when the temperature measured by the infrared temperature measuring device exceeds the set range; A controller for controlling the driving of the cooling device so that the sheet rubber can be cooled through the cooling device when the temperature measured by the infrared temperature measuring device exceeds the set range; And a sheet rubber cooling system for the batch off machine.

The infrared ray temperature measuring device of the present invention measures temperature in a state where the loading conveyor is stopped and driving of the cooling device is stopped so that interference with the temperature to be measured when the temperature of the sheet rubber is measured can be prevented, Is transmitted.

An air pump for supplying compressed air to the rack drive so that the temperature of the sheet rubber moving along the rails can be lowered when the temperature measured by the infrared ray thermometer exceeds the set range; A duct having a plurality of different diameters so that the compressed air supplied from the air pump is stagnant to generate additional pressure; The air supplied from the air pump is used to lower the temperature of the sheet rubber. The compressed air supplied from the air pump concentrates almost horizontally in the narrow space of the inside, and flows around the inner surface to form a jet flow, An air discharging member which is brought together and supplied with air by a sheet rubber; And an angle adjusting member provided on the air discharging member to adjust the discharge intensity of the air discharged from the air discharging member.

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The air discharging member of the present invention is characterized in that air is supplied to the air discharging member from the air by the compressed air supplied from the air pump so that the jet air stream is formed and other air from the outside is drawn together.

The duct of the present invention includes a first duct and a second duct. The first duct is formed to be larger than the diameter of the second duct. The second duct is formed to be smaller than the diameter of the first duct. So that the air pressurized by the first duct causes a stagnation phenomenon by the second duct, so that the pressure of the pressurized air becomes larger.

The angle adjusting member of the present invention is installed at a discharge port of an air discharging member and is manually or automatically adjusted in angle to vary the discharging intensity of air according to the thickness of the sheet rubber.

In the present invention, since the compressed air supplied from the air pump is quickly discharged, a flow is formed in a certain direction together with the surrounding air to increase the cooling efficiency. Thus, when the rubber is loaded on the pallet, There is an effect that it is possible to solve the problem that occurrence of sticking phenomenon, scorch (early flow) phenomenon and surface defects are solved.

 In the present invention, the temperature of the sheet rubber moved along the rail is checked in real time, and the amount of compressed air is adjusted on the basis of the checked temperature to adjust the sheet rubber to be cooled in an optimized state. There is an effect that the defect can be reduced as much as possible.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic diagram of a refining process facility including a conventional batch off machine.
Fig. 2 is a block diagram showing a state in which the sheet rubber is cooled in the batch off machine of Fig. 1; Fig.
Figure 3 schematically shows a sheet rubber cooling system of a batch off machine according to the invention;
4 is a schematic view showing a cooling device installed in a batch off machine according to the present invention.
Fig. 5 is a view showing a configuration of the air supply member of Fig. 4; Fig.
6 is a view showing a configuration of an angle adjusting member provided on the air supplying member of FIG.
Fig. 7 is a view showing the state of air supplied by the air supply member of Fig. 5; Fig.
8 is an operating state diagram showing a state in which a cooling device is installed in a batch off machine to cool the sheet rubber being fed.
9A to 9C are diagrams showing a state in which air is discharged in accordance with a direction in which an air supply member provided in a placement off machine is installed.

Before describing the configuration of the sheet rubber cooling system of the batch off machine according to the present invention, the description of the configuration of the batch off machine is omitted in the detailed description of the present invention. The batch off machine to which the cooling system for cooling the sheet rubber is applied in the present invention is configured in the same manner as that described in the background art of the invention.

Hereinafter, a sheet rubber cooling system of a batch off machine according to the present invention will be described in detail with reference to the accompanying drawings.

The sheet rubber cooling system of the batch off machine according to the present invention is configured as shown in Figs.

FIG. 3 is a schematic view of a sheet rubber cooling system of a batch off machine according to the present invention, FIG. 4 is a schematic view of a cooling system installed in a batch off machine according to the present invention, Fig. 6 is a view showing a configuration of an angle adjusting member provided on the air supplying member of Fig. 5, and Fig. 7 is a view showing the state of air supplied by the air supplying member of Fig. Fig. 8 is an operational state view showing a state in which a cooling device is installed in a placement off machine and a sheet rubber to be fed is cooled. Figs. 9A to 9C show a state in which air And Fig.

3 to 9, the present invention provides a sheet rubber cooling system in a batch off-machine to cool a sheet rubber (not shown) moved along a rail provided on a rack drive 5 of a batch off machine.

The seat rubber cooling system includes an infrared thermometer 10, a cooling device 20 and a controller (not shown).

The infrared temperature measuring instrument 10 is fixed to one side of a loading conveyor 6 for measuring the temperature of the sheet rubber moved horizontally on the rail 5-1 in real time by means of a bracket.

The infrared thermometer 10 is electrically connected to the controller so that data according to the temperature of the sheet rubber measured in real time can be applied to the controller.

The bracket is rotatably connected to the fixing member with respect to the hinge axis so that the angle of the infrared ray thermometer 10 can be adjusted.

The direction and angle of the infrared ray temperature measuring instrument 10 can be adjusted by the rotation of the hinge shaft.

The air conditioning apparatus 20 is provided with an air pump 21 for supplying air and a cooling device for cooling the sheet rubber conveyed by the rails 5-1 by discharging the compressed air supplied by the air pump 21 An air discharging member 23 installed on one side of the rail 5-1 so as to adjust the direction of the compressed air discharged through the air discharging member 23, And a member (24).

A duct (22) is connected between the air pump (21) and the air discharging member (23) so that compressed air can be supplied to the air discharging member (23).

The duct 22 may be composed of a first duct 22-1 and a second duct 22-2 and the first duct 22-1 may have a diameter larger than a diameter of the second duct 22-2, So that the pressure of the compressed air supplied from the air pump 21 can be supplied to the second duct 22-2.

The second duct 22-2 is formed to be smaller than the diameter of the first duct 22-1 so that the compressed air supplied from the first duct 22-1 can be supplied to the air discharge member 23 .

The air discharging member 23 is rotated inside by the compressed air supplied from the air pump 21 to form a jet flow so that other air from the outside is drawn together to supply air to the sheet rubber .

The angle adjusting member 24 adjusts an angle of a discharge port through which air is discharged by a manual method or an automatic method.

In order to adjust the discharge intensity of the air by the manual method, a slot (not shown) is formed on the side of the discharge port so that the angle of the angle regulating member 24 provided at the discharge port of the air discharge member 23 can be adjusted, And a coupling nut 24-2 provided with a threaded coupling projection 24-1 of the angle adjusting member 24 and screwed to the coupling projection 24-1.

In order to adjust the air discharge intensity by the automatic method, gears are formed on any one of the engaging projections 24-1 formed on the side surface of the angle adjusting member 24, and the speed reducer (not shown) And a motor (not shown) coupled to the speed reducer so as to transmit the rotational force to the speed reducer.

The motor is electrically connected to the controller to control the driving force to adjust the angle of the angle adjusting member 24.

The controller (not shown) is electrically connected to an infrared thermometer for measuring the temperature of the sheet rubber in real time. The controller (not shown) determines the temperature supplied from the infrared thermometer in real time, Adjust supply.

Preferably, the controller comprises a PC or a separate circuit and is formed in the form of a PCB. When the controller is a PCB type, it is preferable that the controller includes a memory and a power unit including a control circuit including a microcomputer for controlling the air pump and the motor.

The controller controls the driving of the air pump 21 to adjust the discharge intensity of the air discharged through the air discharge member 23 to rapidly lower the temperature according to the thickness of the sheet rubber or the discharge intensity according to temperature .

And shows a state where the temperature is cooled by the sheet rubber cooling system of the batch off machine of the present invention configured as described above.

First, when the temperature is measured using the infrared thermometer 10, the temperature changed by the air conditioner 20 is measured. In order to prevent the interference phenomenon that is different from the actual temperature, the infrared thermometer 10 measures the infrared temperature The measuring device 10 measures the temperature of the sheet rubber at the moment when the conveying conveyor 2 is stagnated.

The measured temperature data is transmitted to the controller, and the controller calculates the difference between the previously stopped temperature value and the temperature data applied from the infrared temperature meter.

At this time, if the temperature difference exceeds the preset stopping range, the controller applies an electrical signal to the air conditioning unit 20 installed at the end of the batch off machine so as to be operated.

The air compressed by the air pump 21 of the air conditioning apparatus 20 is supplied to the first duct 22-1 and the air supplied to the first duct 22-1 is supplied to the second duct 22- 2).

At this time, since the diameter of the first duct 22-1 is larger than the diameter of the second duct 22-2, the compressed air is stagnated and the second duct 22-2, So that the compressed air is further pressurized.

The air supplied to the second duct 22-2 is further compressed and moved to the air discharging member 23 of the cooling apparatus 20. [

The air supplied to the air discharge member 23 is compressed to about 15 atmospheres, and the air is discharged through the discharge port. As the pressure decreases to 1 atmospheric pressure, the speed increases.

The air discharged as described above sucks the outside air around the air conditioner 20 together to generate a flow in a certain direction and the rectangular air discharging member 23 is directed toward the inside of the rack drive 5, I will.

As shown in FIG. 9A, when the air discharging member 23 of the cooling device is installed, if the sheet rubber is blown in the direction opposite to the moving direction and in the vertical direction, Since the air containing the heat is discharged, it is easy to lower the temperature.

9B, when the air discharging member 23 is installed, the air moves upward in the downward direction of the sheet rubber and the air is sucked in through the air inlet 5-3, so that the temperature can be quickly lowered.

Further, as shown in Fig. 9C, when the air discharging member 23 is provided so as to discharge air in the direction in which the sheet rubber moves, wind is generated by the sheet rubber moving along the rail 5-1, The temperature of the air discharging member 23 can be quickly lowered by discharging the air.

As described above, the air discharge member 23 is provided on the entire rack drive 5 rather than only limitedly installed in any one of the rack drives 5, So that the temperature can be lowered as quickly as possible.

Therefore, the air of the cooling device 20 may collide with the end face of the sheet rubber and circulate to the whole of the rack drive 5, so that more powerful cooling performance with respect to the sheet rubber can be expected. Therefore, a more direct temperature control effect can be expected.

As described above, according to the present invention, the compressed air supplied from the air pump 21 is rapidly discharged, and a flow is formed in a certain direction together with the surrounding air to increase the cooling efficiency. As a result, There is an advantage that the problem of occurrence of sticking phenomenon, scorch phenomenon and surface defects can be solved.

 In the present invention, the temperature of the sheet rubber moved along the rail 5-1 is checked in real time, and the amount of compressed air is adjusted on the basis of the checked temperature to adjust the sheet rubber to be cooled in an optimized state, It is possible to reduce the defects of the sheet rubber by as much as possible.

As described above, the present invention is advantageous in that the cooling device installed in the rack drive 5 operates in accordance with the above-described manner, so that the sheet rubber can satisfy the set temperature range in which the sheet rubber is set.

The embodiments of the present invention disclosed in the present specification and drawings are merely illustrative of specific examples for the purpose of understanding and are not intended to limit the scope of the present invention. Other variations based on the technical idea of the present invention may be practiced in addition to the embodiments disclosed herein, and such variations also fall within the category of the present invention.

1: Mixer 2: Conveyor for conveying
3: dipping tank 4: dipping solution dispensing part
5: Rack Drive 5-1: Rail (Rail)
5-2: Side closure panel 5-3: Intake port
6: Loading conveyor 10: Infrared temperature measuring instrument
20: cooling device 21: air pump
22: Duct 22-1: First duct
22-2: second duct 23: air discharge member
24: angle adjusting member 24-1: engaging projection
24-2: Coupling nut

Claims (6)

An infrared thermometer 10 installed in the loading conveyor 6 for measuring the temperature of the sheet rubber moving along the rails 5-1 of the rack drive 5;
An air pump 21 for supplying compressed air to the rack drive 5 so as to lower the temperature of the sheet rubber moving along the rails 5-1 when the temperature measured by the infrared temperature measuring device 10 exceeds the setting range, A duct 22 formed of a plurality of different diameters so that the compressed air supplied from the air pump 21 is stagnated and further pressurization can be generated and the air supplied from the air pump 21, The air is concentrated almost horizontally in a narrow area by the compressed air supplied from the air pump 21 so that the temperature can be lowered, and the air flows around the inner surface to form another jet air stream, And an angle adjusting member 24 provided on the air discharging member 23 so as to adjust the discharging intensity of the air discharged from the air discharging member 23, Conditioning device (20) provided in the drive (5) and;
A controller for controlling the driving of the cooling device 20 so that the sheet rubber can be cooled through the cooling device 20 when the temperature measured by the infrared temperature measuring device 10 exceeds the setting range;
Wherein the sheet rubber cooling system of the batch off machine comprises:
The method of claim 1, wherein
The infrared ray temperature measuring device (10)
The temperature is measured in a state in which the stop of the loading conveyor 6 and the driving of the cooling device 20 are stopped so as to prevent the occurrence of interference with the temperature to be measured during the temperature measurement of the sheet rubber, And the data is transmitted to the sheet rubber cooling system.
delete delete The method of claim 1, wherein
The duct (22)
And includes a first duct 22-1 and a second duct 22-2,
The first duct 22-1 is formed larger than the diameter of the second duct 22-2,
The second duct 22-2 is formed to be smaller than the diameter of the first duct 22-1,
So that the air pressurized by the air pump (21) is caused to be stagnant by the second duct (22-2) so that the pressure of the pressurized air acts more greatly. .
The method according to claim 1,
The angle adjusting member (24)
Characterized in that the air discharge member is installed at a discharge port of the air discharge member (23) and adjusts the angle manually or automatically to vary the air discharge intensity according to the thickness of the sheet rubber.

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