KR100877195B1 - A spout pouch compression system apparatus - Google Patents

Abstract

The present invention relates to a spout pouch presser which can reduce the defective rate during sealing work by keeping the up and down conveying speed of the sealing mold and pressurizing point and pressing force during the transfer by the cam when sealing the spout at the opening end of the pouch container. will be.

The present invention for achieving the above object is provided with a base, a pouch container fixing member is provided on the center portion of the base is rotated by a rotating means and a pouch container to the fixing member of the rotary table Fixed portion to be fixed by the support, an insertion portion for inserting the spout into the opening end of the pouch container fixed to the fixing member of the rotary table, and is installed in the proximal position of the rotary table to raise and lower the mold by the cam Sealing means and characterized in that consisting of the discharge portion for discharging the pouch container of the sealing operation is completed in the sealing means.

Pouch container, spout, turntable, sealing, cam

Description

Spout pouch compression system

1 is a plan view schematically showing a spout pouch compactor according to the present invention.

Figure 2 is a front view showing the sealing means of the spout pouch compactor according to the present invention.

Figure 3 is a side sectional view showing a sealing means of the spout pouch compactor according to the present invention.

Figure 4 a, b is an enlarged view showing the upper mold of the present invention.

Figure 5 a, b is an enlarged view showing the lower mold of the present invention.

Figure 6 is an enlarged perspective view showing a power generating unit of the present invention.

7 is a view showing an operation relationship of the sealing means of the present invention, a state in which the sealing portion of the spout is pressed.

8 is a view showing the operating relationship of the sealing means of the present invention, a state in which the sealing portion of the spout is pressed.

[Description of Symbols for Main Parts of Drawing]

10: presser 12: base

14: fixing member 16: rotation means

18: rotary table 20: pouch container supply unit

22: spout insertion portion 24: pouch container discharge portion

100: sealing means 200: low temperature unit

202: case 204, 230: upper and lower molds

206, 232: 1st and 2nd guide rod 208, 234: 1st and 2nd lifting plate

210, 236: upper and lower jig 212, 238: first and second operating part

216, 242: 1st, 2nd operation member 250: elastic part

260: power transmission unit 266: rotation axis

268, 270: 1,2 cam 269, 271: eccentric groove

272, 274: first and second operation bar 280: connection

282, 284: first and second connection rod

The present invention relates to a spout pouch presser, and more specifically, when sealing the spout at the opening end of the pouch container by the cam up and down the conveying speed of the mold and the pressurizing point and pressing force during the transfer during the sealing operation A spout pouch press to reduce the defect rate.

In general, the pouch-type liquid storage container is composed of a pouch container having a receiving space for receiving a predetermined liquid, and a spout sealed in the pouch container to selectively discharge the liquid contained in the pouch container. The spout is inserted into the opening end of the pouch container by a sealing device and heat-sealed or bonded.

However, the conventional sealing apparatus heat-sealed the sealing part of the spout and the fusion portion of the container corresponding to the sealing part with the high-temperature and low-temperature unit while the spout is inserted into the opening end of the pouch container, and then finally heat-sealed. In order to prevent thermal deformation of the opening end, it has a structure for compressing the opening end heat-sealed by the cooling unit to room temperature.

Such a conventional sealing device performs a high temperature heat fusion operation in preparation for heterogeneous fusion characteristics of the spout and pouch container, and performs a low temperature heat fusion operation in preparation for the homogeneous fusion characteristics of the container opening end, spout In the case where the welding conditions between the welded end of the container corresponding to the sealing part of the container and the opened end of the container except for the welded part are different, the cooling unit performs a compression process at room temperature by the cooling unit.

However, the conventional method of driving the high and low temperatures and the cooling unit by using a cylinder to operate the upper and lower molds, because the movement speed of the upper and lower dies irregularly, a number of processes must be operated organically with each other. When the processes of the sealing device do not operate organically to each other, that is, the operation of the high temperature unit, the low temperature unit, and the cooling unit are operated with different time differences, and the sealing portion of the spout is moved to the next process sequentially. Pressing points are not matched at the crimping part of the process, which causes a problem that the pressing force of the pouch container and the sealing part of the spout decreases due to the raising and lowering of the upper and lower molds.

When the contents are contained in the pouch container produced by the irregular operation of the upper and lower molds, minute pinholes are generated in the pouch container and spout sealing part, and the contents filled through these pinholes are leaked out, which reduces eggplant branches and shelf life. There was a problem that could not be maintained.

The present invention has been made in order to solve the above problems, a plurality of sealing means are installed at equal intervals on the outer periphery of the rotary table to fix the pouch container to the fixing member, the plurality of sealing means using a cam When the sealing means is operated, that is, the upper and lower jigs of the sealing means are operated at the same speed to operate organically at the same speed so that the pressing point of the spout is always located at the same position even when moving to the next process. In addition, the purpose of the present invention is to pressurize the sealing portion of the spout with the same pressing force set to prevent the occurrence of defects such as minute pinholes in the sealing portion.

The present invention for achieving the above object is characterized in that the spout pouch presser for sealing the spout in the pouch container, the upper mold and the lower mold for sealing the spout in the pouch container is characterized by the operation by the cam.

Here, the spout pouch presser is installed on the base and the center portion of the base, but the pouch container fixing member is provided at the top to rotate the rotary table by the rotating means, and to supply and fix the pouch container to the fixing member of the rotary table A fixing part, an inserting part for inserting a spout into the opening end of the pouch container fixed to the fixing member of the rotating table, and a sealing means installed at a proximal position of the rotating table to raise and lower the upper and lower molds by a cam. And a pouch container discharge part for discharging the pouch container in which the sealing operation is completed in the sealing means.

Further, the sealing means is opened and moved back and forth, the case is installed on the base, the upper mold provided inside the case to move up and down by the operation of the cam, the lower portion provided inside the case to move up and down by the operation of the cam A mold, a power generating unit for generating power to operate the upper mold and the lower mold, characterized in that consisting of a connecting portion for operating by connecting the upper, lower mold and the power generating unit with each other.

In addition, the case is installed so that a portion is positioned above the rotary table, characterized in that formed in a rectangular shape.

The upper mold and the lower mold are provided with a plurality of first guide rods and second guide rods fixed to the inner upper portion of the case, and are slidably coupled to the first and second guide rods, respectively, to the upper side of the rotary table. The first lifting plate and the second lifting plate which is located on the lower side is provided, and provided on the upper and lower portions of the first and second lifting plate, respectively, the upper jig and the lower jig for pressing the upper and lower ends of the sealing portion of the spout is provided, Characterized in that the first operating unit and the second operating unit for sliding the first and second lifting plate up and down.

In addition, the first operation part of the upper mold is provided with a fixing bracket is provided on the upper inner side of the case and a first operating member hinged to the fixing bracket, the one side of the first operating member is the first lifting lower The fixing plate is provided on the upper portion of the steel plate is hinged, the other side is characterized in that the coupling is made.

And, the second operation portion of the lower mold is provided with a fixing bracket on the lower inner side of the case, a second operating member is hinged to the fixing bracket is provided, the elastic portion is provided on the lower portion of the lifting plate One side of the second operating member is hinged, the other side is characterized in that the coupling is made.

Here, the elastic portion is provided with a support plate fixed by bolts and nuts spaced apart from the lower portion of the second elevating plate, a lower portion of the support plate is provided with a support bracket, the elastic member between the second elevating plate and the support bracket Is provided, the support bracket is characterized in that one side of the second operating member is hinged.

In addition, the power generating unit is formed with an auxiliary plate in the lower portion of the case is fixed to the bearing, the rotating shaft is fastened to the bearing is provided, the rotating shaft is provided to correspond to each other, the first cam and the first eccentric groove formed in the corresponding surface portion A second cam is provided, and the first operating bar and the second operating bar are mounted on the eccentric grooves of the first and second cams to move up and down.

Here, the first operation bar and the second operation bar is provided with a fixing bracket on the lower portion of the case, one side of the first and second operation bar is hinged, the other side is hinged to the connecting portion, the center portion is the first Characterized in that it is coupled to the roller is coupled to the eccentric groove of the 1,2 cam, respectively.

Further, the eccentric grooves of the first and second cams are formed to be opposite to each other.

And, the connecting portion is the upper and lower molds of the first and second operating members are respectively fastened to the lower portion of the first and second operating bars of the power generating unit respectively, the first connection rod and the second connection rod made of It features.

In addition, the sealing means is characterized in that consisting of a low-temperature unit, a high-temperature unit and a cooling unit disposed at a predetermined interval in the proximity of the rotary table.

Here, the high temperature unit is characterized in that consisting of the first high temperature unit and the second high temperature unit.

Furthermore, the low temperature unit, the high temperature unit and the cooling unit is characterized in that the connection member for connecting so that each of the rotation axis to rotate the same.

In addition, the connection member is characterized in that the universal joint coupling.

Hereinafter, the spout pouch compactor according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view schematically showing a spout pouch compactor according to the present invention, Figure 2 is a front view showing a sealing means of the spout pouch compactor according to the present invention, Figure 3 shows a sealing means of the spout pouch compactor according to the present invention 4 is an enlarged view showing the upper mold of the present invention, FIG. 5 is an enlarged view showing the lower mold of the present invention, and FIG. 6 shows the power generating unit of the present invention. An enlarged perspective view.

1 to 6, the presser 10 of the present invention has a base 12 and a fixing member 14 installed on an upper portion of the base 12 to support a pouch container on an upper portion thereof in an arc direction. A plurality is provided at equal intervals, the lower end is provided with a rotary table 18 provided with a rotating means (16).

In addition, the pouch container provided at a predetermined position of the base 12 to supply the pouch container manufactured by a separate device to the fixing member 14 of the rotary table 18 and to be fixed to the fixing member 14 at the same time. The fixing part 20 is provided.

In addition, a spout insertion unit 22 for inserting the spout into the opening end of the pouch container fixed to the fixing member 14 of the rotary table 18 by the operation of the fixing unit 20 is provided.

In addition, the spout insertion unit 22 is provided with a sealing means 100 for moving the heat-sealed spout and pouch container after inserting the spout from the opening end of the pouch container.

In addition, the sealing means 100 is composed of a pouch container discharge part 24 for discharging the finished product of the pouch container completed by heat-sealing the pouch container and the spout.

Here, the sealing means 100 is composed of a low temperature unit 200, a high temperature unit 300, a cooling unit 400 disposed at a predetermined interval in the proximity of the rotary table 18.

Further, the high temperature unit 300 is composed of a first high temperature unit 300a and a second high temperature unit 300b.

The low temperature unit 200, the first and second high temperature units 300a, 300b, and the cooling unit 400 are respectively installed in the base 12 which is opened back and forth, respectively, to a part of the rotary table 18. Is provided with a rectangular case 202 installed to be positioned.

In addition, the upper mold 204 which is provided on the inner upper portion of the case 202 to move up and down is installed.

Here, the upper mold 204 is fixed to a plurality of first guide rods 206 fixed to the inner upper portion of the case 202, is slidably coupled to the first guide rods 206, the rotation A first elevating plate 208 is provided to be positioned above the table 18, and is provided below the first elevating plate 208, that is, in the direction of the rotary table 18 to press the upper end of the heat-sealed portion of the spout. An upper jig 210 is provided and includes a first operating part 212 that slides the first elevating plate 208 up and down.

Further, the upper jig 210 is formed with a groove area on which the spout is seated on the outer side, and a heater and a cooling hole are provided on the inner side. Here, the upper jig 210 is a conventional technology and a detailed configuration will be omitted. Shall be.

In addition, the first operating part 212 is provided with a fixing bracket 214 on the upper inner side of the case 202, the first operating member that is hinged to the center of the fixing bracket 214 to be movable ( 216 is provided, one side of the first operation member 216 is provided with a fixed plate 218 on the upper portion of the first elevating plate 208 is hinged to be movable, the other side to the connection portion 280 It is configured to be fluidly coupled.

Here, a long groove 219 is formed in the fixed plate 218 to which one side of the first operating member 216 is coupled, and further includes a roller 217 on one side of the first operating member 216 to provide the roller 217. ) Moves up and down the first elevating plate 208 while flowing and rotating on the long groove 219 of the fixed plate 218.

In addition, the lower mold 230 which is provided on the inner lower portion of the case 202 to move up and down is installed.

Here, the lower mold 230 is provided with a plurality of second guide rods 232 fixed to the inner lower portion of the case 202, and is slidably coupled to the second guide rod 232 to the upper and lower portions. A second elevating plate 234 positioned below the rotary table 18 is provided, and is provided below the second elevating plate 234, that is, in the direction of the rotary table 18 to press the heat-sealed portion of the spout. A lower jig 236 is provided and includes a second operating part 238 that slides the second lifting plate 234 up and down.

Further, the lower jig 236 is formed with a groove area on which the spout is seated on the outer side, and a heater and a cooling hole are provided on the inner side. Here, the lower jig 236 is a conventional technology and a detailed configuration will be omitted. Shall be.

In addition, the second operation part 238 is provided with a fixing bracket 240 in the lower inner side of the case 202, the second operating member is hinged to the center of the fixing bracket 240 to be movable ( 242 is provided, the elastic portion 250 is provided at the lower portion of the second elevating plate 234 is hinged to one side of the second operating member 242 to the elastic portion 250 to flow, The other side of the second operation member 242 is configured to be fluidly coupled to the connection portion 280.

Here, the elastic part 250 is provided with a support plate 252 spaced apart from the lower portion of the second elevating plate 234 is fixed with a bolt 253 and a nut 254, and the second elevating plate 234 and An elastic member 256 is provided between the support plates 252, and a support bracket 258 is provided below the support plate 252 so that one side of the second operating member 242 is hinged to be movable.

Furthermore, a long groove 259 is formed in the support bracket 258 to which one side of the second operating member 242 is coupled, and a roller 243 is further provided on one side of the second operating member 242 to provide the roller ( 243 is moved up and down the second lifting plate 234 while flowing and rotating on the long groove 259 of the support bracket 258.

In addition, the upper mold 204 and the lower mold 230 is provided with a power generating unit 260 for generating power to raise and lower.

Here, the power generator 260 is formed in the lower portion of the case 202 so that the pair is spaced apart from each other is formed with a pair of bearings 264 fixed to each of the auxiliary plate 262, a pair of bearings The first and second cams 268 and 266 are provided on the rotary shaft 266 and are spaced apart from each other on the rotary shaft 266, and eccentric grooves 269 and 271 are formed on corresponding surfaces. 270 is installed, and the first operating bar 272 and the second on the rollers 273 and 275 respectively seated in the eccentric grooves 269 and 271 of the first and second cams 268 and 270. The operation bar 274 is coupled, and the other side of the first and second operation bars 272 and 274 are connected to the connection portion 280, respectively.

That is, the first operation bar 272 is coupled to the eccentric groove 269 of the first cam 268, and the second operation bar 274 is attached to the eccentric groove 271 of the second cam 270. Are coupled to each other so that the pitch curves of the rollers 272a and 274a seated in the eccentric grooves 269 and 271 are rotated when the first cam 268 and the second cam 270 rotate. The eccentric grooves 269 may be formed so that the second operation bar 274 is operated opposite to each other such that the second operation bar 274 is located at a lower side when the connecting portion 280 of the first operation bar 272 is raised upward. (271) is formed in reverse.

Here, the opposite side of the coupling portion 280 to the first operating bar 272 and the second operating bar 274 is provided with a fixing bracket 276 in the lower portion of the case 202 is hinged rotatably. .

In addition, a connection part 280 is provided to connect the power generating unit 260 with power so that the upper and lower molds 204 and 230 are lifted up and down.

Here, the connection part 280 is a first connection rod 282 connecting the first operation member 216 of the upper mold 204 and the first operation bar 272 of the power generator 260 to each other. Is provided, and the second operating member 242 of the lower mold 230 and the second connecting rod 284 for connecting the second operation bar 274 of the power generating unit 260 with each other.

On the other hand, the low-temperature unit 200 and the high-temperature unit 300 and the cooling unit 400 of the sealing means 100 is made of the same configuration as described above, the low-temperature unit 200 and the high-temperature unit 300 and Each of the rotating shafts 266 of the cooling unit 400 may further include a separate motor (not shown) at any one side and may be connected to a belt so that the rotating shaft 266 may be rotated, and the rotating table 18 may be rotated. The rotating shaft 266 may be rotated by receiving the power of the rotating means 16 to rotate.

Then, the rotary shaft 266 and the rotary shaft 266 of the low temperature unit 200 and the high temperature unit 300 and the cooling unit 400 are connected to each other by a connecting member 267 between the rotating shaft 266 and the rotating shaft. .

Here, the connecting member 267 connecting the rotary shaft 266 and the rotary shaft 266 to each other is preferably a universal coupling for rotating the rotary shaft 266 to be inclined at a predetermined angle.

Referring to the operational relationship of the spout pouch compactor of the present invention configured as described above is as follows.

7 is a view showing the operating relationship of the sealing means of the present invention, the state of pressing the sealing portion of the spout, Figure 8 is a view showing the operating relationship of the sealing means of the present invention, the sealing portion of the spout is pressed state It is a drawing of.

As shown in FIG. 7 and FIG. 8, the present invention firstly supplies a pouch container manufactured to have an opening end formed at an upper portion of a separate machine, and fixes the fixing member 14 of the rotary table 18. At this time, the rotary table 18 is repeatedly stopped and rotated at a predetermined interval.

Therefore, the pouch container fixed to the fixing member 14 is moved to the next step by the rotation of the rotary table 18, and the pouch container moved is inserted into the opening end of the pouch container by the spout insertion part 22. do.

In the state where the spout is inserted into the opening end of the pouch container, the pouch container is moved to the low temperature unit 200 of the sealing means 100 again.

Here, the pouch container and the spout moved to the low temperature unit 200 are heat-sealed.

That is, heat is fused by applying heat to the heat fusion portion of the spout inserted into the pouch container moved to the low temperature unit 200.

As described above, a method of thermally fusion of the pouch container and the spout is performed by rotating the first and second cams 268 and 270 when the rotation shaft 266 rotates. Rollers 272a and 274a respectively seated in the eccentric grooves 269 and 271 are moved up and down along the eccentric grooves 269 and 271 so that the first and second operation bars 272 and 274 move. The first and second connecting rods 282 and 284 are coupled to the up and down flow.

That is, when the rotating shaft 266 rotates half a wheel, the first operating bar 272 fixed to the eccentric groove 269 while the first cam 268 rotates is fixed to the fixing bracket 276. The first direction of the first connecting rod 282 is operated by the same operation by the repetitive operation in which one side of the first operation bar 272 moves up and down, which is not the opposite direction flows up and down. The first operating member 216 fixed to the upper portion of 282 is operated.

At this time, the first operation member 216 is the first lifting plate (208) while the direction in which the first lifting plate 208 is fixed is rotated to the lower center of the hinge fixed to the fixed bracket 214 of the center ( 208 will be moved downward.

As such, when the first lifting plate 208 is moved downward, the first lifting plate 208 is safely lowered to the lower side without being separated by the guide of the first guide rod 204, and the first lifting plate As the 208 descends to the bottom, the upper jig 210 presses the upper portion of the spliced portion of the spout.

On the contrary, as the rotation shaft 266 rotates, the second cam 270 also raises the second lifting plate 234 by the same operation as that of the first cam 268, that is, with the first cam 268. On the contrary, when the rotating shaft 266 rotates half a turn, the second cam 270 is lowered in the connecting portion 280, and at this time, the second connecting rod 284 connected to the second operating bar 274 is rotated. As the second operation member 242 descends by the lowering of the second connection rod 284 and the direction in which the second lifting plate 234 is coupled around the center is raised, the second lifting plate 234. The silver is raised upward according to the guide of the second guide rod 232 so that the lower jig 236 pressurizes the lower portion of the heat fusion portion of the spout.

Accordingly, the first and second elevating plates 208 and 234 are raised and lowered by the operation of the first and second cams 268 and 270 to simultaneously press the upper and lower portions of the heat fusion portion of the spout.

When the rotary shaft 266 rotates one revolution in the state where the upper and lower parts of the spout are pressed as described above, the first and second lifting plates 208 and 234 return to the state before pressing the upper and lower parts of the spout which is the first state. Done.

That is, when the rotating shaft 266 rotates one round, the first connecting rod 282 is lowered by the first operating bar 272, so that the first elevating plate 208 is raised, and vice versa. As the second connecting rod 284 is raised by the second operation bar 274, the second lifting plate 234 is lowered.

As such, when the first heat fusion operation is completed in the low temperature unit 200, the high temperature unit 300 is moved to the next step, and the first and second high temperature units 300a and 300b are moved back to the high temperature unit 300. While passing through the second and third car is combined to press the heat-sealed portion of the spout is to be heat-sealed firmly.

In addition, when the spout is completed three times the heat fusion operation is finally moved to the cooling unit 400 to prevent the heat fusion portion of the opening end deformed by high heat.

Here, the operation of the first and second high temperature units 300a and 300b and the cooling unit 400 is operated by the same operation method of pressing the upper and lower portions of the spout in the low temperature unit 200.

Thus, the spout is thermally fused to the open end of the pouch container in four orders, that is, through the low temperature unit 200, the first high temperature unit 300a, the second high temperature unit 300b, and the cooling unit 400 in sequence. The pouch container is discharged to the outside through the discharge portion (24).

Accordingly, the upper and lower molds 204 and 230 are operated by using the cam to operate the low temperature unit 200, the first high temperature unit 300a, the second high temperature unit 300b, and the cooling unit 400. Thus, the pouch container and the spout can be thermally fixed to each other at the same speed and the same pressing force.

In addition, the low-temperature unit 200, the first high-temperature unit 300a, the second high-temperature unit 300b, each of the rotary shafts 266 of the cooling unit 400 are connected to each other to rotate at the same force and speed to each other It is possible to prevent the devices operating organically from interoperating, thereby improving the efficiency of work production and eliminating the cause of the failure, thereby reducing the maintenance cost of the device.

In the above, a preferred embodiment of the spout pouch compactor according to the present invention has been described, but the present invention is not limited thereto, and various modifications are made within the scope of the claims and the detailed description of the invention and the accompanying drawings. It is possible that this also belongs to the scope of the present invention.

In the present invention configured as described above, the upper and lower molds are operated in the same manner by using the cams, so that the organic molds are operated at the same speed and moved to the next process. In addition, it is possible to pressurize with the same pressing force set the sealing portion of the spout has the effect of preventing the occurrence of defects such as fine pinholes in the sealing portion.

Claims (16)

In the spout pouch press machine for crimping and sealing the spout in the pouch container, In order to seal the spout in the pouch container, upper and lower molds are provided with a sealing means for raising and lowering by a cam. The sealing means includes a low temperature unit disposed at a predetermined interval in a proximal position of the rotary table, a high temperature unit, and a cooling unit. A spout pouch presser, characterized in that consisting of units. The method of claim 1, The spout pouch presser, Bass, A rotary table installed at the center of the base and provided with an upper pouch container fixing member to rotate by a rotating means; A fixing part for supplying and fixing the pouch container to the fixing member of the rotary table; Spout insertion unit for inserting the spout in the opening end of the pouch container fixed to the fixed member of the rotary table; Sealing means is installed in the proximity of the rotary table and the upper and lower molds are raised and lowered by the cam, Spout pouch compactor, characterized in that consisting of the discharge portion for discharging the pouch container of the sealing operation is completed in the sealing means. The method of claim 2, The sealing means is opened and moved back and forth and the case is installed on the base; An upper mold provided inside the case to move up and down by operation of a cam, A lower mold provided inside the case to move up and down by operation of a cam; A power generator for generating power to operate the upper mold and the lower mold; Spout pouch compactor, characterized in that the upper, lower mold and the power generating unit is connected to each other to operate to connect. The method of claim 3, wherein The case is installed so that a portion is positioned to the upper portion of the rotary table spout pouch compactor, characterized in that formed in a rectangular shape. The method of claim 3, wherein The upper mold and the lower mold are provided with a plurality of first guide rods and second guide rods fixed to the inner upper portion of the case, and are slidably coupled to the first and second guide rods, respectively, on the upper side and the lower side of the rotary table. The first lifting plate and the second lifting plate which are positioned are provided, and provided on the upper and lower portions of the first and second lifting plates, respectively, the upper jig and the lower jig for pressing the upper and lower ends of the sealing portion of the spout is provided, A spout pouch presser, comprising: a first operating part and a second operating part for sliding the first and second lifting plates up and down. The method of claim 5, wherein The first operating part of the upper mold is provided with a fixing bracket on the upper inside of the case and a first operating member hinged to the fixing bracket, the one side of the first operation member of the first lifting plate A spout pouch presser, characterized in that the fixing plate is provided on the upper hinge hinge, the other side is coupled to the connection portion. The method of claim 5, wherein The second operation part of the lower mold is provided with a fixing bracket on the lower inner side of the case, the second operating member is hinged to the fixing bracket is provided, the elastic portion is provided on the lower portion of the lifting plate A spout pouch presser, characterized in that one side of the second operating member is hinged, the other side is coupled to the connection portion. The method of claim 7, wherein The elastic part is provided with a support plate fixed with a bolt and a nut spaced apart from the lower portion of the second elevating plate, a lower portion of the support plate is provided with a support bracket, the elastic member is provided between the second elevating plate and the support bracket And a spout pouch presser, wherein one side of the second operating member is hinged to the support bracket. The method of claim 3, wherein The power generating unit includes a first plate and a second cam having an auxiliary plate formed at a lower portion of the case to fix the bearing, and a rotating shaft fastened to the bearing, and the rotating shaft corresponding to each other and having an eccentric groove formed at a corresponding surface thereof. And a spout pouch presser which is provided with a first operation bar and a second operation bar which are mounted on the eccentric grooves of the first and second cams to move up and down. The method of claim 9, The first operation bar and the second operation bar is provided with a fixing bracket on the lower portion of the case, one side of the first and second operation bars are hinged, the other side is hinged to the connection portion, the center portion is the first Spout pouch compactor, characterized in that coupled to the roller is coupled to the eccentric groove of the 2 cam, respectively. The method of claim 10, The spout pouch compactor of claim 1, wherein the eccentric grooves of the first and second cams are formed opposite to each other. The method according to claim 7 or 9, The connection part is characterized in that the upper portion is fastened to the first and second operating members of the upper and lower molds, respectively, and the lower portion is composed of a first connection rod and a second connection rod respectively fastened to the first and second operation bars of the power generating unit. Spout pouch presser. delete The method of claim 1, The high temperature unit is a spout pouch presser, characterized in that consisting of the first high temperature unit and the second high temperature unit. The method of claim 1, Spout pouch presser further comprises a connection member for connecting the rotation axis of the low-temperature unit and the high-temperature unit and the cooling unit to rotate the same. The method of claim 15, Spout pouch compactor, characterized in that the connecting member is a universal joint coupling.

Images