KR100687445B1 - The product method and a water pack - Google Patents

Abstract

The present invention relates to a water pack manufacturing method that is put into a variety of foods such as beverages and ash to maintain the cooling effect, in particular, a plastic pack filled with water inside the appropriate interval by gravity using a guide plate The present invention relates to a water pack manufacturing method of manufacturing a pack in the form of a pack by transferring the mold to a suitable size through a heat welding machine.

Therefore, the present invention is a useful invention that can improve the aesthetics of food because it is an ice pack manufacturing method that keeps the water melted down from the ice while keeping it cold, as if the ice is added to food.

In addition, the guide plate and the heat-sealing machine used in the manufacturing method of the present invention, although the manufacturing cost is low to produce a water pack through a very simple operation, the quality is excellent.

In addition, it can be used for a variety of purposes because it can produce a variety of water packs.

Guide plate, upper frame, lower frame, heating wire, plastic pack, lifting means

Description

Water pack manufacturing method and the water pack {The product method and a water pack}

1 is a perspective view showing a state of a heat welding machine of the present invention,

Figure 2 is a side view showing the lifting means of the heat welding machine of the present invention,

3 is an enlarged view of a heating wire that is an essential part of the present invention.

<Brief description of the major symbols in the drawing shown>

10; Plastic pack 20; Guide plate

21; Support plate 22; Recess

23; Guide fixture 30; Stopper

31; Hot wire 32; Elastic spring

34; Connector 35; Bottom frame

36; Cylinder 37; Descending means

40; Top frame 41; Tension Spring

42; Guide rod

The present invention relates to a water pack manufacturing method for maintaining a cooling effect by adding to a variety of foods such as beverages and sashimi, in particular, titrating a plastic pack filled with water by gravity using a guide plate The present invention relates to a water pack manufacturing method of manufacturing a pack in the form of a pack by transferring at intervals and cutting to a suitable size through a heat fusion machine.

In general, ice is added to sashimi, beverages and various foods requiring freezing and refrigeration to maintain a fresher state, and to enhance the taste.

However, such ice may have the positive effects described above, but may also have the following negative effects.

First, if you want to drink a drink, that is, cola or cider in a cooler state, we are drinking iced cola or cider.

By the way, tasting in this manner has the advantage of drinking the cola or cider more cool, but there is a problem that changes the taste of the cola and cider is practical because the ice put into the cola and the cider is melted to become water.

Second, if this ice is used to eat sashimi fresher, it has been used iced dishes under conventional meetings.

However, as time goes by, the ice will have to melt and turn into liquid water.

Therefore, conventionally, in order to remove it, the bottom of the dish is used in a state where a towel that can absorb the melted water is used.

All of these problems are caused by the fact that ice makes it possible to eat general foods more freshly and coolly, while ice goes through a state change that melts when the temperature rises.

The present invention, which solves the above-mentioned problems, relates to a water pack manufacturing method which is put into a wide variety of foods such as drinks or sashimi and maintains the cooling effect thereof. The present invention provides a method of manufacturing a water pack, which is transported at an appropriate interval by gravity and cut into a suitable size through a heat fusion machine to produce a pack.

Therefore, the present invention provides a method for manufacturing an ice pack, comprising the steps of preparing a vinyl pack made of a cylindrical having a constant diameter, and the plurality of the end of the plastic pack after placing a plurality of spaced at a predetermined interval on the inclined guide plate Water welding comprising the steps of fusion, the step of injecting water into the end of the fused plastic pack, and fusion and cutting the water-injected plastic pack through a heat fusion machine to a predetermined size It is intended to provide a pack manufacturing method.

" 자형의 가압구를 가진 장형의 상단프레임과; 상기 상단프레임과 하단프레임의 좌우측을 관통 하고, 그 외부로 인장스프링을 삽입한 가이드봉이; 상기 승하강 수단의 작동으로 상단프레임이 하향하여 상단프레임과 하단프레임의 사이에 위치한 물이찬 비닐팩을 일정간격으로 융착하며 절단하는 워터팩 제조방법을 제공하고자 한다.In addition, the heat fusion apparatus used in the fourth step, which is the main part of the present invention, includes an elongated stopper that blocks the plastic pack from the front by standing perpendicular to the end of the downward guide plate; A lower frame including a heating wire embedded in a lower end of the stopper, an elastic spring for pulling the heating wire at left and right ends of the heating wire, and a connector for coupling the elastic spring and the heating wire; Coupled to the lifting means at the top of the bottom frame,

"A long top frame having a female pressurization port; Guide rods penetrating the left and right sides of the upper frame and the lower frame and inserting tension springs to the outside thereof; the upper frame is lowered by the operation of the lifting means. To provide a water pack manufacturing method for fusion and cutting the water-filled plastic pack located between the and the lower frame at regular intervals.

The present invention is similar to the conventional one in that it is a method of manufacturing an ice pack.

However, since it is a great feature in that it is achieved through the following sequence and unique mechanical configuration will be described in detail with the drawings shown.

The present invention is the first step: preparing a plastic pack 10 made of a cylindrical having a constant diameter.

That is, as shown in Figure 1, to produce a long plastic pack 10 made of a cylindrical having a constant diameter.

The second step, which is the next step: After placing the prepared plastic pack 10 at a predetermined interval on the inclined guide plate 20, undergoes a step of fusing the ends of the plastic pack 10.

That is, as shown in FIG. 1, one plastic pack 10 is placed on one guide sphere 23 of the guide plate 20, and the guide plate 20 is configured to be inclined to one side.

Therefore, the plastic pack 10 mounted on the guide plate 20 is to slide down in the inclined direction by the gravity.

Moreover, since the water is continuously supplied through the hose and the nozzle inside the plastic pack 10 of the present invention, the sliding action on the guide plate 20 will be easier.

Then, the configuration of the guide plate 20 in more detail with reference to Figure 1 as follows.

That is, the inclined guide plate 20 is inclined diagonally, and a guide tool 23 is formed in which the recess 22 is formed in the direction in which the plastic pack 10 slides.

Therefore, the plastic pack 10 filled with water slides into the recess 22 of the guide tool 23.

In other words, the guide tool 23 is configured to form a concave recessed recess 22 long, so that the plastic pack 10 is positioned one by one in the recessed recess 22.

Therefore, if the water is filled inside the plastic pack 10, the plastic pack 10 is flowed down through the concave groove 22 of the guide sphere 23 is cut to a suitable size by the heat fusion machine 50 to be described later will be.

And the present invention is a third step: the step of injecting water into the end of the fused plastic pack 10.

That is, one side end is completely fused to inject water from the other side of the plastic pack 10 is produced without a gap.

This water should be injected at a very moderate pressure.

And then, the fourth step: fusion and cutting of the plastic pack 10 into which the water is injected through a heat fusion machine 50 was performed to produce a water pack.

That is, since the plastic pack 10 is cut to a proper size, it is included in the food to keep the food fresher and more delicious.

Then, the structure of the heat fusion apparatus 50 of the present invention together with the drawings of FIGS. 1 to 4 shown here will be described in detail.

The heat fusion apparatus 50 used in the fourth step has a long stopper 30 which stands vertically at the end of the downward guide plate 20 and blocks the plastic pack 10 from the front, and the stopper ( 30 is a lower end of the heating wire 31, the elastic spring 32 for pulling the heating wire 31 at the left and right ends of the heating wire 31, the connector for coupling the elastic spring 32 and the heating wire 31 A lower frame 35 composed of 34 is formed.

" 자형의 가압구(38)를 가진 장형의 상단프레임(40)이 있고, 상기 상단프레임(40)과 하단프레임(35)의 좌우측을 관통하고, 그 외부로 인장스프링(41)을 삽입한 가이드봉(42)이 있다. And, coupled to the lifting means 37 consisting of a cylinder 36 at the top of the lower frame 35, "

'' Has a long upper frame 40 having a pressurization opening 38 of the shape, penetrates the left and right sides of the upper frame 40 and the lower frame 35, and inserts a tension spring 41 into the outside thereof. There is a rod 42.

Therefore, the operation of the elevating means 37, the upper frame 40 is downwardly fused and cut the water-filled plastic pack 10 located between the upper frame 40 and the lower frame 35 at regular intervals.

That is, there is an elongated stopper 30 standing vertically at the end of the guide plate 20 to prevent the plastic pack 10 from the front, the stopper is preferably made of glass or transparent synthetic resin.

In addition, the bottom frame of the elastic wire 32 is built in the lower end of the stopper 30, the elastic wire 32 to pull the heating wire 31 at the left and right side ends of the heating wire 31.

Of course, the upper portion of the heating wire 31 is wrapped with Teflon tape (T).

Therefore, when the electric current is heated to the heating wire 31, the heating wire 31 is increased by the amount of the thermal expansion coefficient itself.

Then, since the parts of the plastic pack 10 to be fused and cut are likely to be twisted, elastic springs 32 for exerting tensile force are coupled to the left and right ends of the heating wire 31.

Therefore, the elastic spring 32 can always be pulled from the left and right by the appropriate tensile force in the right and right to cut the plastic pack 10 to a suitable size, it can be manufactured as a pack by fusion.

Then, in order to explain in detail the operation of the heat-sealing device 50, the vinyl pack 10 long lined in the guide hole 23 concave groove 22 of the guide plate 20 is the guide plate 20 inclined by the gravity It will be directed to one side of.

At that end, the stopper 30 shown in the figure is located, which stops further progress.

Then, when the illustrated cylinder 36 operates and folds the shaft A, the shaft end of the cylinder 36 is fixed to the upper frame 40, so that the upper frame 40 has the lifting means ( 37) and the lower frame 35 is interviewed downward.

That is, the lifting means 37 is a guide rod 42, a tension spring 41 and the cylinder 36 shown in Figs.

In other words, when the cylinder 36 folds the shaft A, the tension force of the tension spring 41 is pressed and the cylinder 36 pulls the upper frame 40 fixed to the shaft A end. The frame 35 is interviewed.

At this time, between the upper frame 40 and the lower frame 35, the plastic pack 10 is filled with water, it is pressed between the frames (35, 40).

However, as shown in FIG. 3, the lower frame 35 is provided with a heating wire 31 and is bonded to the upper portion with a Teflon tape T.

Of course, the position of the heating wire 31 is also built in a biased state at the end of the lower frame (35).

" 자형의 가압구(38)를 이용하여 물이 담겨진 비닐팩(10)의 끝단을 먼저 눌러 꺽은 상태에서 계속적인 하향이 이루어져 상단프레임(40)이 하단프레임(35)과 면접을 하는 것이다.Therefore, the upper frame 40 is downward, as shown in Figure 2, "

"Pressing the end of the plastic pack (10) containing water by using the pressure-shaped pressing hole 38, the downward in the continuous state is made to continue the upper frame 40 is to interview the lower frame (35).

At this time, the high temperature hot wire 31 having the lower frame 35 is thermally fused to the plastic pack 10.

Of course, the high temperature heat and the strong pressing force of the upper frame 40 are cut to generate the strongest heat in the area where the heating wire 31 and the plastic pack 10 abut.

However, the cutting is made, but both sides of the cut vinyl pack 10 is produced in the form of a pack because the two-pack vinyl pack 10 is heat-sealed at a high temperature.

And the vinyl pack 10 produced by the manufacturing method of the present invention, that is, the plastic pack 10 of the first step, the ice pack of 2.5-4.5cm in diameter or the water bomb pack of 4.5-7.5cm in diameter is optional. Can be used as

In other words, the ice pack is produced in a pack containing a small size of water and then frozen in the freezer and put in the food is used in a way to keep the food cold.

In other words, when the water contained in the plastic pack 10 is frozen in a freezer in a freezer compartment, the water is contained in a cider or cola and is converted into a liquid while keeping the carbonated beverage cooler. There is no worry to flow in.

Therefore, the purpose of ice to cool food is to achieve it, but not to melt the ice into water and spread it to the food to change the actual taste of the food.

In addition, the water bomb pack of another embodiment is larger than the size of the ice pack and the thickness of the vinyl is also thin.

Therefore, the water can be used for playing and popping thrown cold water bomb pack.

Moreover, the thickness of the ice pack and water bomb pack should be made in a different form according to the purpose of each, but can be produced by the above-described method.

Then, the most preferred range of the thickness of the ice pack and water bomb pack proved by the applicant of the present invention through many experiments, the thickness of the ice pack, the thickness is preferably 0.04-0.1mm.

In addition, the water bomb pack of the present invention, the thickness is preferably 0.01-0.08mm.

In addition, the present invention is also subject to the claims of a water pack manufactured by the above-described manufacturing method.

As described above, the present invention is a useful invention that can improve the aesthetics of food because it is an ice pack manufacturing method that keeps the water melted down from the ice while keeping it cold, as if the ice is added to food.

In addition, the guide plate and the heat-sealing machine used in the manufacturing method of the present invention, although the manufacturing cost is low to produce a water pack through a very simple operation, the quality is excellent.

In addition, it can be used for a variety of purposes because it can produce a variety of water packs.

Claims (7)

In the method of making an ice pack, First step: preparing a plastic pack 10 made of a cylindrical having a constant diameter. The second step: placing a plurality of the prepared plastic pack 10 at a predetermined interval on the inclined guide plate 20 and then fusion of the end of the plastic pack 10. Third step: injecting water into the plastic pack 10, the end of the fusion. Fourth step: water pack manufacturing method comprising the steps of producing a water pack by performing the fusion and cutting through the heat fusion machine 50 to the plastic pack 10, the water is injected into a predetermined size. The method of claim 1, The plastic pack 10 of the first step, A water pack manufacturing method characterized in that the ice pack of 2.5-4.5cm in diameter or the water bomb pack of 4.5-7.5cm in diameter can be used selectively. The method of claim 2, The ice pack, The water pack manufacturing method, characterized in that the thickness of 0.04-0.1mm. The method of claim 2, The water bomb pack, The water pack manufacturing method, characterized in that the thickness of 0.01-0.08mm. The method of claim 1, The inclined guide plate 20 of the second step, The inclined diagonally, the guide hole 23 is formed to form a recessed groove 22 in the direction in which the plastic pack 10 is slipped on the top to slide the plastic pack 10 filled with water into the recess 22 Water pack manufacturing method characterized in that. The method of claim 1, The heat fusion device 50 used in the fourth step, A long stopper 30 standing vertically to the end of the guide plate 20 to block the plastic pack 10 from the front; Built-in heating wire 31 at the lower end of the stopper 30, the elastic spring 32, the elastic spring 32 and the heating wire 31 to pull the heating wire 31 at the left and right ends of the heating wire 31 A lower frame 35 composed of a connector 34 for coupling; Coupled to the elevating means 37 composed of a cylinder 36 at the top of the lower frame 35,

&Quot; long upper frame 40 having a shaped pressing hole 38; A guide rod 42 penetrating the left and right sides of the upper frame 40 and the lower frame 35 and inserting a tension spring 41 into the outside thereof; By the operation of the lifting means 37, the upper frame 40 is downwardly fused and cut the water-filled plastic pack 10 located between the upper frame 40 and the lower frame 35 at a predetermined interval. Water pack manufacturing method. In a pack containing water, Water pack, characterized in that produced by the method of any one of claims 1 to 6.

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