KR102645490B1 - Sealing device using ac power supply - Google Patents

Abstract

The present invention relates to a sealing device using alternating current power that ensures the accuracy and safety of the work when sealing or adhering various types of plastic paper.
The present invention relates to a sealing device using alternating current power that ensures the accuracy and safety of the work when sealing or adhering various types of plastic paper.
That is, an installation stand 202 installed on the raising and lowering cylinder 201, an insulator 203 installed on one side of the installation stand 202 with bolts at a certain interval, and an insulator 203 installed on one side of the insulator 203. A sealing heat plate 205 having connection terminals 204 at both ends, an AC transformer 103 that is connected to the connection terminal 204 of the sealing heat plate 205 to supply AC power, and a current regulator that controls the current ( 102) and a temperature control unit 101 that controls the heat generation of the sealing plate 205 and its temperature, it is a sealing device that ensures the accuracy and safety of the work when sealing or adhering various types of vinyl paper. , In particular, it is possible to control heat generation and temperature by directly connecting AC power to the sealing plate of the heating part, so that higher quality sealing work can be performed. Furthermore, the sealing plate is made up of a variety of materials with various effects to improve its use. It is characterized by being configured to double accuracy and safety.

Description

Sealing device using AC power {SEALING DEVICE USING AC POWER SUPPLY}

The present invention relates to a sealing device using alternating current power, which ensures the accuracy and safety of the work when sealing or adhering various types of vinyl paper.

Most of the typical sealing devices that seal various types of wrapping paper or vinyl paper have a structure in which nichrome wires are installed on both sides of the sealing plate or inside it, so that the heat generated by the nichrome resistance is transmitted to the sealing knife base, thereby performing the sealing work.

Therefore, the conventional heat conduction method that transfers the heat generated from the nichrome wire to the sealing heating plate consumes a lot of power when the temperature of the sealing heating plate rises, and it is impossible to accurately control the temperature of the sealing heating plate that is in direct contact with the sealing material, so the heat conduction method is used to transfer the heat generated from the nichrome wire to the sealing heating plate. Problems such as adsorption of sealing water (vinyl paper), poor vinyl adhesion, and excessive smoke generation were pointed out, and furthermore, the problem of heat being indirectly transferred not only to the sealing plate but also to surrounding devices through the heat conduction method using nichrome wire. It has been pointed out

In addition, it has been pointed out that since the conventional sealing plate is made of carbon steel, its durability is significantly reduced.

KR Public Patent No. 10-2010-0107935 KR Public Patent No. 10-2011-0045792 KR Public Patent No. 10-2013-0119573 KR Registered Patent No. 10-0502851

The present invention was invented to solve the above-described conventional problems. In particular, the present invention directly connects the electrical energy of the AC power to the sealing hot plate and at the same time precisely controls the resulting heating temperature of the sealing hot plate to provide better quality sealing work. It was invented with the focus on enabling this to be carried out.

The sealing device using AC power according to the present invention includes an installation stand (202) installed on the raising and lowering cylinder (201), an insulator (203) installed on one side of the installation stand (202) with a bolt at a certain interval, and

A sealing heating plate 205 installed on one side of the insulator 203 and having connection terminals 204 at both ends,

It consists of an AC transformer (103) connected to the connection terminal (204) of the sealing heating plate (205) to supply AC power, and a current regulator (102) controlling the current to control the heat generation of the sealing heating plate (205) and its heating temperature. It is characterized by consisting of a temperature control unit 101 to control,

The sealing hot plate 205 is made by mixing iron, nickel, molybdenum, and brass in a ratio of 1:1:1:1.

The sealing device according to the present invention is intended to perform sealing work by using alternating current power and at the same time directly generating heat from the sealing hot plate. Not only is the heating time of the sealing hot plate very short, but the heating temperature can be precisely controlled, thereby sealing the sealing plate. There is an effect of performing high-quality sealing work by precisely controlling the temperature suitable for sealing depending on the type and material of water, such as vinyl paper or packaging paper.

In addition, by mixing the sealing plate with various metal combinations, it not only improves manufacturing convenience and durability, but also minimizes the thickness of the sealing plate, allowing the sealing cross-sectional shape to be easily and safely changed as needed. , Furthermore, it has the effect of promoting semi-permanent use and maximizing the accuracy of sealing work.

In addition, almost no dislocations occur with the vinyl paper on the joint surface of the sealing plate, which has the effect of completely preventing joint defects.

In addition, the present invention has the detailed effect of enabling selective use depending on the working environment by configuring a double sealing plate.

1 is a detailed configuration diagram of the present invention;
Figure 2 is a reference photo of the results according to the present invention,
Figure 3 is another illustration of the present invention.

Hereinafter, the specific configuration of this invention to support the solution to the above problem and its embodiments will be described in detail along with the attached drawings. However, the attached drawings may be exaggerated, omitted, or schematically depicted for the convenience of explanation of key parts, and the terms and names used in the explanation are not defined by dictionary meaning but are implicitly determined by the shape, action, role, etc. of the composition. The description of the direction is determined based on the direction first presented from the first drawing, and the description of the location is determined based on the center of the circle or the middle of each composition. Additionally, detailed descriptions of pre-registered known and common technologies may obscure the point, so they are omitted or replaced with simple symbols or names.

In addition, the specific structure, shape, shape, arrangement, size, etc. of the composition that can be identified through the drawings, as well as the operation of the composition and the resulting effects that can be inferred through the drawings, may obscure the point, so detailed explanations are omitted. Bolts, welding areas, holes, etc. applied to connect components can be omitted from the drawing as they may obscure the point.

Referring to FIG. 1, the sealing device using AC power according to this invention largely consists of a heating unit 206 and a temperature control unit 101.

For reference, the configuration of the sealing device according to the present invention is usually located on the transfer conveyor of the sealing equipment and moves up and down to seal the vinyl paper or packaging transferred from the supply unit into a specific shape.

Going back, the heating unit 206 includes an installation stand 202 installed on the raising and lowering cylinder 201, an insulator 203 installed on one side of the installation stand 202 with bolts at a certain interval, and the insulator (203) It consists of a sealing heating plate (205) installed on one side and having connection terminals (204) at both ends.

And the temperature control unit 101 is composed of an AC transformer 103 that is connected to the connection terminal 204 of the sealing plate 205 to supply AC power, and a current regulator 102 that controls the current of the AC transformer.

The sealing device using AC power of the present invention, which has the above configuration, is installed in a normal sealing equipment and performs functions such as heat sealing or attaching one side of the transported plastic paper or packaging paper.

However, in carrying out the above operation, the present invention directly connects the temperature control unit 101 to the connection terminals 204 at both ends of the sealing heat plate 205, thereby controlling the temperature of the sealing heat plate 205 and thereby controlling the work more precisely. It was made to be done.

In other words, the present invention implements heat generation by a sealing plate using alternating current power through a current regulator of the temperature control unit and an alternating current transformer. The alternating current power is about 60 Hz and generates inductive noise with a sealing plate made of a thermally conductive material.

And when AC power is output from the AC transformer, the current regulator controls the AC power output of the AC transformer to control the temperature of the sealing plate.

In addition, the AC power is directly connected to the sealing heat plate to generate heat immediately, so it is very easy to quickly increase the temperature and control the required temperature, making it possible to set the required temperature according to the characteristics of the sealing object.

In addition, the structure generates heat directly from the sealing plate, which prevents the surrounding temperature from rising as much as possible and at the same time prevents work defects or safety accidents.

In addition, the present invention has the advantage of allowing the sealing heat plate to be manufactured and used in various shapes by directly connecting AC power to the sealing heat plate. In other words, it has the advantage of having the versatility to seal according to the shape of a specific seal.

Meanwhile, in the present invention, the sealing heat plate 205 is manufactured by mixing iron, nickel, molybdenum, and brass in equal proportions.

Since the nickel is ferromagnetic, it has the characteristic of being easily magnetized at ambient temperature.

Nickel's malleability and ductility, as well as its resistance to heat, oxidation and corrosion, make it one of its best qualities.

Additionally, nickel is classified as a transition metal and has a slow oxidation rate at room temperature, making it hard, malleable, and resistant to corrosion. It is also magnetic at ambient temperature and has a high melting point.

Molybdenum is very mild and can withstand very high temperatures, but it is also easy to process.

It also proves its value as an optimized melting and solidification vessel thanks to its excellent purity. Withstands extreme temperatures and aggressive glass damage. Ensures optimal agitation with long product life. High power density, power die, and heat generation through electric flow through frangist. Excellent thermal conductivity and thermal expansion properties suitable for semiconductor materials make it a perfect substrate for power electronic devices. When used as a vape plate, it dissipates heat reliably. As the zinc content increases, brass' specific gravity and electrical and thermal conductivity decrease, while its melting point lowers and fluidity improves, making it used as a casting material.

Brass has a unique yellow color and can achieve high gloss through polishing. Compared to red copper, the surface oxidizes slower and maintains its gloss for a long time.

The sealing plate as described above has an excellent temperature increase and maintenance effect due to the various characteristics of its mixed components, and in particular, almost no potential occurs between the sealing plate and the sealing material, so there are no problems such as poor bonding or the need for frequent cleaning, thus reducing the work rate. Very outstanding.

In addition, as shown in Figure 2 in the attached drawing, the heating device according to the present invention requires about 30-40 minutes of heating preparation time for the sealing knife base as shown in (a) and has a current consumption of 5,254 W (220 V, 23.89 A), it can be seen that the present invention reduces the heating preparation time of the sealing heating plate to 3 minutes due to the characteristics of the temperature control unit and the sealing heating plate, and in addition, the power consumption is significantly reduced to 838W (220V, 3.81A).

Meanwhile, in another embodiment of the present invention, as shown in FIG. 3 of the attached drawing, a double sealing plate 205 (205') is configured on both sides of the installation table 202,

The installation stand 202 is;

It further includes installation parts (2) (21) formed symmetrically on both sides, and a guide bar (24) positioned at a certain length in the lower center of the installation stand (202) and forming guide grooves (22) (23) on both sides. Organize,

The sealing hot plate 205 (205') is;,

Raising and lowering plates (3) (31), one end of which is inserted into each of the guide grooves (22) and (23) on both sides of the guide bar (24), and integrally formed on the top of the sealing hot plates (205) (205'),

The upper end is passed through the installation parts (2) (21) in a vertical line and screwed with the height adjustment nut (32), and the lower end is connected to the raising and lowering plates (3) (31) on both sides (33) ( 34) Wow,

It further includes a spring (4) positioned along the length of the raising and lowering bars (33) and (34) and placed between the installation portions (2) (21) and the raising and lowering plates (3) (31). It is characterized by

The above embodiment is designed to diversify its use through the double sealing heat plates 205 and 205'. As shown in FIG. 3, the raising and lowering bars 33 of the double sealing heat plates 205 and 205' are used. (34) is used by adjusting the positions (upper and lower heights) individually or equally to the required positions on the installation parts (2) and (21) on both sides of the installation stand (202) using the height adjustment nuts (32).

At this time, the spring (4) placed between the installation portion (2) (21) of the installation stand (202) and the raising and lowering plates (3) (31) of the sealing heating plate (205) (205') is connected to the sealing heating plate (205). As the (205') is pushed downward, the upper and lower positions of the sealing plates (205) (205') are adjusted by the height adjustment nut (32).

In addition, the raising and lowering plates (3) (31) have one end inserted into the guide grooves (22) and (23) of the guide bar (24), respectively, so that the vertical flow accuracy of the sealing hot plates (205) (205') and safety are guaranteed.

By connecting, the sealing heating plates 205 and 205' by the above-mentioned action descend along the raising and lowering cylinder 201 and the installation table 202, and their lower surfaces come into contact with the sealing material to perform the sealing work.

In addition, in the above operation, when the sealing plate 205 (205') descends and comes into contact with the seal, the spring 4 between the raising and lowering plate 3 (31) and the installation stand 202 provides a certain cushioning force. To ensure safety and work accuracy.

The above example has the advantage of allowing individual or double sealing work to be conveniently performed by selectively using one or two sealing plates 205 and 205' during the sealing work.

The present invention described above is a drawing of the configuration of the present invention and specific components included in the configuration to help understand the principle of the configuration pursued in the invention, and is explained based on the drawings. The structure, form, shape, arrangement, direction, and quantity of the composition included in the invention and its specific components are determined in consideration of the principle to be pursued, and these may be changed in various ways as needed. The configuration and its specific components presented in the present invention illustrate the effect that a person skilled in the art would like to obtain from the invention and what principle is most desirable to apply to obtain a better effect from the effect. will be. Accordingly, it is most desirable to complete the present invention by including all of the configurations described above, but it can be completed by selecting or excluding some of the configurations described above depending on cost reduction, convenience of manufacturing, environmental conditions, or necessity. Also, one or part of the components can be separated and completed by merging with other components. In addition, each configuration described above may be independently applied to other technical fields other than this technical field, taking into account the principle, use, function, role, action, effect, etc. Based on this, the scope of rights of the present invention can be claimed in the order of the broad scope of rights by specifying the claims of the invention as inclusive as possible as follows.

This concludes the description of the present invention. It appears that a technician with ordinary knowledge in this technical field will be able to fully understand the gist sought by the invention through the above-described specific contents, and the effects of the parts shown but not explained can be sufficiently inferred through the drawings. will be. Accordingly, a person skilled in the art will be able to apply various modifications and changes in this technical field based on the contents mentioned in this invention.

This invention has a simple structure, is easy to handle, and has excellent action and effectiveness compared to conventional sealing devices, so it has significant industrial applicability from a functional and economic perspective.

101: temperature control unit 102: current regulator
103: AC transformer 201: Rise and fall cylinder
202: Installation stand 203: Insulator
204: Connection terminal 205, 205': Sealing heating plate
206: heating part 2, 21: installation part
22,23: Guide groove 24: Guide bar
3,31: Rise and fall plate 32: Height adjustment nut
33,34: Rise and fall bar 4: Spring

Claims (3)

It consists of an installation table 202 that is raised and lowered by a raising and lowering cylinder 201, a sealing hot plate 205 installed at the bottom of the installation stand 202, and a temperature control unit 101 connected to the sealing hot plate 205. , the installation stand 202 includes an insulator 203 installed on one side with bolts at a certain interval, and the sealing plate 205 is installed on one side of the insulator 203 and connected at both ends. It is configured to include a terminal 204, and the temperature control unit 101 is connected to the connection terminal 204 of the sealing plate 205, and an AC transformer 103 that supplies AC power, and controls the current of the AC transformer. Consisting of a current regulator 102 to control the heat generation and temperature of the sealing heating plate;
The installation stand 202 is composed of a double sealing plate 205 and 205' on both sides, and the installation stand 202 includes installation parts 2 and 21 formed symmetrically on both sides, and a central lower portion of the installation stand 202. It further includes a guide bar 24 that is positioned at a certain length and forms guide grooves 22 and 23 on both sides, and the sealing hot plates 205 and 205' have one end of the guide bar ( Raising and lowering plates (3) (31) fitted into the guide grooves (22) and (23) on both sides of the 24) and integrally formed on the top of the sealing hot plates (205) (205'), and the upper end of the installation part (2) (21) through a vertical line and screwed with the height adjustment nut (32), and the lower end is connected to the raising and lowering plates (3) and (31) on both sides (33) (34), and the raising and lowering plate (21) (33) (34) further includes a spring (4) located along the length line and placed between the installation portion (2) (21) and the raising and lowering plate (3) (31);
The sealing plate 205 is made by mixing iron, nickel, molybdenum, and brass in a ratio of 1:1:1:1;
Not only is the heating time of the sealing plate very short, but the heating temperature can be controlled precisely, so the temperature suitable for the sealing can be precisely controlled depending on the type and material of the sealing material, such as vinyl paper or wrapping paper, to provide high-quality sealing work. This not only improves manufacturing convenience and durability, but also minimizes the thickness of the sealing plate so that the shape of the sealing cross-section can be easily and safely changed as needed, and furthermore, it promotes semi-permanent use and The accuracy of the sealing work can be maximized. There is almost no dislocation with the vinyl paper due to the joint surface of the sealing plate, which has the effect of completely preventing bonding defects. Additionally, the dual configuration of the sealing plate allows for selective use depending on the work environment. A sealing device using alternating current power that makes it possible.
delete delete

Images