KR101765069B1 - The manufacturing method of the hot melt adhesive - Google Patents

Abstract

The present invention relates to a method of manufacturing a hot melt adhesive, and more specifically, to a method of manufacturing the hot melt adhesive, the method which is capable of preventing a liquid hot melt from being stuck to a conveyor belt as a member to be adhered during the preparation of the hot melt. An aspect of the present invention provides the method of manufacturing the hot melt adhesive, the method comprising a melting process (S110) of heating raw materials, thereby melting the raw materials, and mixing the raw materials at the same time, an extrusion process (S120) of transferring a prepared liquid hot melt to a post-process using an extruder, and temporarily storing the liquid hot melt at the same time, a filtering process (S130) of filtering alien substances included in the liquid hot melt, a molding process (S140) of molding the liquid hot melt into a granulated form, a cooling process (S150) of cooling the molded hot melt to solidify the hot melt, and a packaging process (S160) of packaging the solidified hot melt. The molding process (S140) is molding the hot melt using a molding apparatus (100) which is capable of molding the hot melt. The molding apparatus (100) includes a molding roller (110), a conveyor belt (120), a first cooling unit (130), a second cooling unit (140), an adhesion preventing unit (150), and a storage unit (160) having a scraper (162).

Description

[0001] The present invention relates to a hot melt adhesive,

The present invention relates to a method for producing a hot-melt adhesive, and more particularly, to a method for manufacturing a hot-melt adhesive capable of preventing liquid hotmelts from adhering to a conveyer belt as a deposition member during production of a hot-melt.

Adhesion refers to a state in which two surfaces are attached by the attraction force between molecules, atoms and ions. Adhesion phenomenon is widely applied in daily life to everyday life products such as tapes and bonds as well as automobiles and cutting-edge semiconductor devices Recently, the demand for adhesives for various fields has been diversified according to remarkable industrial development.

Polymer adhesives can be classified into chemical reaction type, solvent type, and hot melt type depending on the solidification process. Among them, hot-melt adhesives are easy to use and are a good example of meeting the requirements of the emerging environment.

Normally, a hot melt adhesive (hot melt adhesive) is a solid substance at normal temperature and is an adhesive which is used to melt only 100% solids in heat without dissolving or dispersing in a solvent.

These hot melt adhesives were developed by DuPont for the first time in the 1960s as ethylene-vinyl acetate resin (EVA) was developed. As a result of its high productivity, environment-friendly characteristics, wide applicability and re- Compared with the same period of last year.

Therefore, currently, various methods are used to manufacture and sell hot melt adhesives.

Here, an example of the above various methods of producing hot melt adhesives will be described. The raw materials of the hot melt adhesive are melted in a liquid phase and then put into a forming roller which can shape the product.

The forming roller is provided with a plurality of through holes along the circumferential direction. When the material is supplied into the forming roller, the forming roller is rotated and contacts the conveyor belt, which is the adhered member. At this time, Is discharged through a plurality of through holes, adhered to the conveyor belt in the form of granules, and cured to form a solid state.

However, in the conventional method of producing a hot-melt adhesive, there is a disadvantage in that the hot-melt adhesive supplied to the shaping roller and the cured hot-melt adhesive are not separated from the conveyor belt.

That is, since the hot melt melted in the liquid state is attached to the conveyor belt during the process of curing on the conveyor belt, the worker must directly separate it from the conveyor belt using a tool, And the like.

Accordingly, the present applicant has made a method for manufacturing a hot-melt adhesive capable of solving the conventional problems as described above.

According to an embodiment of the present invention, there is provided a method for manufacturing a hot-melt adhesive which is capable of preventing a liquid hot melt discharged from a forming roller from sticking to a conveyor as a deposition member in order to produce a liquid hot melt in granular form.

The present invention discloses a method for producing a hot melt adhesive. According to an aspect of the present invention, there is provided a process for producing a hot melt, comprising: a melting step of heating and melting a raw material and mixing the same with an agitator; a step of transferring a liquid hot melt prepared through the melting step to a post- The hot melt of the liquid phase transferred by the extruder can be filtered, and the filtered hot melt liquid is supplied through the filtration process to be formed into a granular form A cooling step of cooling the hotmelt formed through the molding step so as to solidify the solidified hotmelt and a packaging step of packing the solidified hotmelt through the cooling step, Is formed by using a molding device capable of molding a hot melt, The hot melt of the liquid hot melt supplied from the forming rollers can be supplied and discharged in the form of granules, a conveyor belt to which the liquid hot melt discharged from the forming roller is adhered, and a hot melt adhered to the conveyor belt are cured A second cooling unit positioned below the conveyor belt for cooling the conveyor belt so as to facilitate curing of the hot melt adhered to the conveyor belt; An adhesion preventive portion for applying silicone to the surface of the conveyor belt so as to minimize adherence of cured hotmelt to the conveyor belt, and an anti-adhesion portion for collecting hotmelt cured by the first cooling portion and the second cooling portion And the hot melt remaining on the conveyor belt can be separated from the conveyor belt The hot-melt adhesive preparation including a storage is provided a scraper is provided.

Embodiments of the present invention allow the hot melt to be cured in a short period of time by allowing the conveyor belt to harden the hot melt to solidify the hot melt of the molten liquid phase into a granular form, It is possible to prevent the hardened hot-melt adhesive from adhering to the conveyor belt.

1 is a flowchart schematically showing a manufacturing process according to a method of manufacturing a hot-melt adhesive according to an embodiment of the present invention.
2 is a schematic view illustrating a molding apparatus used in a method of manufacturing a hot-melt adhesive according to an embodiment of the present invention.
3 is a view schematically showing an anti-adhesion part 150 according to a method of manufacturing a hot-melt adhesive according to an embodiment of the present invention.
4 is a schematic view of a packaging apparatus used in a method of manufacturing a hot-melt adhesive according to an embodiment of the present invention.

Hereinafter, a method of manufacturing a hot-melt adhesive according to embodiments of the present invention will be described in detail with reference to the drawings.

According to an embodiment of the present invention, it is possible to prevent the hot-melt adhesive, which has hardened in the form of granules, from sticking to a conveyor belt, which is a member to be adhered, in a process of mixing and melting raw materials constituting the hot- do.

1 is a flowchart schematically showing a manufacturing process according to a method of manufacturing a hot-melt adhesive according to an embodiment of the present invention.

Referring to FIG. 1, a method of manufacturing a hot-melt adhesive according to an embodiment of the present invention includes a melting step (S110) of heating and melting a raw material of a hot-melt and mixing using a stirrer, (S120) in which a hot melt of a liquid phase is transferred to a post-process by using an extruder and temporarily stored as a hot melt of a liquid phase, and a filtration device capable of filtering foreign matters contained in the liquid hot melt transferred by the extruder (S140), a molding step (S140) of feeding the filtered hot melt liquid through the filtration step and shaping it into granular form, and a step of cooling the hot melt formed through the molding step to solidify A cooling step (S150), and a packaging step (S160) in which the solidified hot melt can be packed through the cooling step.

The melting step (S110) is a step of melting the raw material which is the main component of the hot melt and mixing the molten raw material with a ribbon mixer or a kneader.

That is, a furnace is provided, and the raw material is charged in the furnace in accordance with the order of injection, and then the raw material is melted in the form of a gel by heating to about 180 DEG, and then the raw material is mixed using a stirrer provided in the furnace.

In the extrusion step (S120), the liquid hot melt, which is stirred through the stirrer, is supplied into the heating furnace and stored for a predetermined time, and the liquid hot melt supplied from the heating furnace is supplied to a filtration step (S130) to be.

In this case, the extrusion step (S120) may be preheated to a temperature of about 170 deg. To prevent the molten hot melt of the liquid phase from hardening, as in the case of the heating furnace. The stored hot melt can be supplied.

That is, after the raw materials are melted and mixed in the melting step (S110), they are supplied and stored temporarily, and when a liquid hot-melt is required in a process to be described later, it is supplied.

The filtering step (S120) is a step of removing foreign matter contained in the liquid hot melt supplied in the extrusion step (S120).

That is, various foreign substances that may be contained in the melting operation of the raw material can be filtered using a mesh net or the like. For example, safety shoes, protective glasses, masks, gloves, and the like worn by workers in order to carry out the work can be put in the melting process due to the carelessness of the operator. Therefore, it is possible to remove it, so that impurities are not included.

The forming step S140 is a step of supplying the liquid hot melt removed from the foreign substance through the filtration step (S130) and molding it into granular form.

The cooling step (S150) is a step of cooling the hot melt of the liquid phase formed in the granular form through the molding step (S140) so as to be cured.

That is, when the conveyor belt is adhered to the conveyor belt in the form of granules through the molding step (S140), the conveyor belt is circulated to the cooling step (S150) so that the liquid hot melt is cured.

For this purpose, the hot-melt molding apparatus 100 is used in an embodiment of the present invention.

The hot melt forming apparatus 100 described above can include a forming step S140 and a cooling step S150. Referring to FIG. 2, the hot melt forming apparatus 100 is supplied with the liquid hot melt supplied in the filtering step S130 A conveyor belt 120 on which a liquid hot melt discharged from the forming roller 110 is adhered, and a hot melt adhered to the conveyor belt 120 are cured A first cooling unit 130 for absorbing warmth and supplying cool air to the conveyor belt 120 to cool the conveyor belt 120 by being positioned below the conveyor belt 120, A second cooling unit 140 for promoting hardening of the hot melt, and a second cooling unit 140 for applying silicone to the surface of the conveyor belt 120 so as to minimize sticking of the hardened hot melt to the conveyor belt 120 Prevent attachment And the hot melt which is cured by the first cooling unit 130 and the second cooling unit 140 is collected and stored and the hot melt remaining on the conveyor belt 120 is conveyed to the conveyor belt 120 And a storage unit 160 provided with a scraper 162 that can be separated.

The forming roller 110 is rotated in accordance with the driving of a motor (not shown) and is formed into a cylindrical shape, and a plurality of through holes 112 may be formed on the outer circumferential surface.

That is, when the hot melt of the liquid obtained through the filtration process is supplied into the shaping roller 110, the shaping roller 110 is rotated by driving the motor, and the liquid hotmelts are discharged through the plurality of through holes 112 .

The conveyor belt 120 is installed so as to be circulated in one direction in accordance with the driving of a motor (not shown). The conveyor belt 120 is in contact with the rotating forming roller 110, Is formed so as to be adhered in a granular form.

That is, since the hot melt of the liquid phase usually has a viscosity in a molten state, when the hot melt of the liquid phase is discharged through the through hole 112 while the forming roller 110 rotates, the conveyor belt 120 is temporarily As shown in Fig.

The first cooling unit 130 is disposed above the circulating conveyor belt 120 to cool the hot melt of the liquid phase, which is adhered in granular form, to promote curing. For this purpose, in an embodiment of the present invention, a housing 132 for covering the conveyor belt 120, a cooler 134 for absorbing the heat in the housing 132 and for supplying cool air, And a blower 136 installed at one side of the housing 132 and rotating according to the driving of the motor 135 so that the cool air supplied from the cooler 134 flows in a direction in which the conveyor belt 120 circulates. .

The cooler 134 is connected to the housing 132 through a duct so that the cool air duct 133a for supplying the cool air into the housing 132 is inserted into the housing 132 through the conveyor belt 120 And the heating duct 133b is installed on the side where the conveyor belt 120 is discharged from the housing 132. The heating duct 133b is installed on the side where the conveyor belt 120 is discharged.

The second cooling unit 140 is installed below the conveyor belt 120 to cool the lower portion of the conveyor belt 120 by circulating cold water to cool the hot melt adhered to the upper side of the conveyor belt 120, .

The adhesion preventive portion 150 prevents sticking to the conveyor belt 120 when the hot melt adhering to the conveyor belt 120 is cured. To this end, in one embodiment of the present invention, liquid silicone can be applied to the conveyor belt 120 so that the hot melt melted at a high temperature is prevented from sticking due to viscosity.

3, the anti-adhesion unit 150 includes a storage tank 151 for storing liquid silicon, a column member 151 fixed to the storage tank 151, A support member 153 rotatably installed on the support member 153 and configured to be in contact with the liquid silicone 152 supplied from the storage tank 151, And one end of the injection member 154 is connected to the injection member 154 so that the direction in which the silicon is injected can be changed by changing the direction of the nozzle provided in the injection member 154, An actuator 155 rotatably coupled to the support member 153 at the other end thereof and a wheel 156 installed at a lower portion of the storage tank 151 so as to be smoothly moved, 152, And a controller 157 for controlling the supply of silicon to the member 154 and controlling the driving of the actuator 155.

That is, as shown in FIG. 2, after the anti-adhesion part 150 is positioned on one side of the conveyor belt 120, the controller 157 sets the injection speed, injection time, and injection direction. Then, the liquid silicone is supplied from the storage tank 151 to the injection member 154 by pressing the operation button provided on the controller 157.

Thereafter, the silicon supplied to the injection member 154 is injected onto the surface of the conveyor belt 120 through the nozzle. At this time, one end of the silicon is coupled to the support member 153 and the other end is rotated The injection direction of the silicon is changed in accordance with the elongation or reduction of the actuator 155 possibly combined.

Therefore, the actuator 155 and the injection member 154 are driven for a predetermined period of time, and the silicone can be uniformly sprayed on the surface of the conveyor belt 120, so that it does not adhere to the conveyor belt 120 when the hotmelt is cured.

A storage unit 160 is installed on the other side of the conveyor belt 120 on which the anti-adhesion unit 150 is installed.

The storage part 160 includes a storage box 161 for collecting and storing hot melts cured by the first cooling part 130 and the second cooling part 140, And a scraper 162 installed on the conveyor belt 120 to separate the remaining hot melt from the conveyor belt 120.

That is, the storage unit 160 collects the hot melt conveyed by the conveyor belt 120, separates the hot melt remaining on the conveyor belt 120 from the conveyor belt 120 even though the silicone is applied, (161).

The packaging process (S160) is a process for automatically packing hot melts temporarily stored in the storage container (161) by using the packaging machine (200).

4, the packaging apparatus 200 includes a vertical frame 210 vertically installed in a vertical direction, a chain 220 installed in the longitudinal direction of the vertical frame 210, 220 which can receive the hot melt therein and includes a conveying cylinder 230 which can be vertically moved up and down according to the driving of the chain 220, A hopper 250 for receiving the hot melt in the transfer cylinder 230 conveyed upward by the chain 220, a sensor 240 for checking the weight of the hot melt stored in the hopper 250, A conveyance belt 260 for conveying the hot melt supplied to the hopper 250 when the hot melt is fed into the packaging sheet, a conveyance belt 260 for conveying the hot melt to the hopper 250, The suture device 270, which can seal the wrapping paper, .

That is, when a predetermined amount of hot melt is stored in the storage container 161, the packaging device 200 is driven. At this time, as shown in the drawing, the storage box 161 is formed so that the bottom surface is inclined in one direction. The inclined portion is provided with a door 161a that can be automatically lifted and lowered according to the driving of the motor to open and close the opening and closing port have.

In this state, when the door 161a is opened, the hot melts inside are dropped and received in the transfer cylinder 230. At this time, a sensor 240 for measuring the weight is provided at the lower portion of the conveyance cylinder 230. When a proper amount of hot melt is received in the conveyance cylinder 230, the door 161a is closed, (220) is driven so that the conveying cylinder (230) can be elevated upward.

The transfer cylinder 230 is lifted upward and the transfer cylinder 230 is tilted in one direction by the rotation of the chain 220 so that the hot melt inside the transfer cylinder 230 is dropped into the hopper 250, The hot melt is received in a wrapping paper located on the upper side of the conveyance belt 260.

Thereafter, the conveyance belt 260 is driven to convey the wrapping paper containing the hot melt therein to the sealer 270 for sealing.

Accordingly, in the method of manufacturing a hot-melt adhesive according to an embodiment of the present invention, a liquid hot-melt is cured within a short time by using the first cooling unit 130 and the second cooling unit 140, Silicone is applied to the surface of the belt 120 by using the anti-adhesion part 150 so that the hot melt does not adhere to the conveyor belt 120.

In addition, by including the scraper 162 at one end of the conveyor belt 120, even if the hot melt remains on the conveyor belt 120, the conveyor belt 120 can be separated from the conveyor belt 120.

In addition, by automatically packing the produced hot melt using the packaging device 200, the work can be completed easily and easily.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: forming device 110: forming roller
112: Through hole 120: Conveyor belt
130: first cooling section 132: housing
134: cooler 135: motor
140: second cooling unit 150:
151: Storage tank 152: Column member
153: support member 154:
155: Actuator 156:
157: Controller 160: Storage section
161: Storage box 161a: Door
162: scraper 200: packaging machine
210: vertical frame 220: chain
230: transfer cylinder 240: sensor
250: Hopper 260: Feed Belt
270: Sealer
S110: Melt process S120: Extrusion process
S130: Filtration step S140: Forming step
S150: Cooling step S160: Packaging step

Claims (3)

A melting step (S110) in which the raw material is heated and melted and mixed using an agitator,
An extrusion process (S120) for transferring the hot melt of the liquid produced through the melting process to a post-process using an extruder and for temporarily storing a liquid hot melt,
A filtration step (S130) for filtering foreign substances contained in the liquid hot melt transferred by the extruder,
A molding step (S140) in which the filtered hot melt liquid is fed through the filtering step and molded into granules,
A cooling step (S150) in which the hot melt formed through the molding step can be solidified by cooling;
And a packaging process (S160) for packing the solidified hotmelt through the cooling process,
The molding step (S140) is performed by using a molding apparatus (100) capable of molding hot melt. The molding apparatus (100)
A forming roller 110 for supplying the liquid hot melt supplied in the filtering step S130 and discharging the hot melt in the form of granules,
A conveyor belt 120 on which a liquid hot melt discharged from the forming roller 110 is adhered, a first cooling unit 120 for absorbing warmth and supplying cold air so that the hot melt adhering to the conveyor belt 120 can be cured, (130)
A second cooling unit 140 positioned below the conveyor belt 120 to cool the conveyor belt 120 to facilitate curing of the hot melt adhered to the conveyor belt 120,
An anti-sticking part 150 for applying silicone to the surface of the conveyor belt 120 so as to minimize adherence of the cured hot melt to the conveyor belt 120,
The hot melts cured by the first cooling unit 130 and the second cooling unit 140 are collected and stored and the hot melt remaining on the conveyor belt 120 is separated from the conveyor belt 120 And a storage part (160) provided with a scraper (162). [2] The refrigerator according to claim 1, wherein the first cooling unit (130)
A housing 132 for covering the conveyor belt 120,
A cooler 134 for absorbing the heat in the housing 132 and supplying cool air,
And a blower 136 installed at one side of the housing 132 and rotating according to the driving of the motor 135 so that the cool air supplied from the cooler 134 can flow in a direction in which the conveyor belt 120 circulates In addition,
The cooler 134 is connected to the housing 132 through a duct so that the cool air duct 133a for supplying the cool air into the housing 132 can prevent the conveyor belt 120 from flowing into the housing 132, And the hot air duct 133b is installed on the side where the conveyor belt 120 is discharged from the housing 132 so as to absorb the heat in the housing 132. [ . [2] The apparatus according to claim 1,
A storage tank 151 in which liquid silicon can be stored,
A pillar member 152 to which a lower portion is fixedly installed in the storage tank 151,
A support member 153 protruding to one side orthogonally to the pillar member 152,
A spray member 154 rotatably installed on the support member 153 and capable of spraying liquid silicon supplied from the storage tank 151,
The direction of spraying the silicon can be changed by changing the direction of the nozzle provided in the injection member 154. The one end is connected to the injection member 154 and the other end is rotatably supported by the support member 153 An actuator 155 coupled thereto,
A wheel 156 installed at a lower portion of the storage tank 151 so as to be smoothly moved,
And a controller (157) installed at one side of the upper portion of the column member (152) to control supply of silicon to the injection member (154) and to control driving of the actuator (155).

Images