KR20200002657U - Material packaging device based on heat sealing - Google Patents

Abstract

The present invention includes at least one packaging material molding machine, a heat sealing mechanism, and a material supply mechanism, and the packaging material is output from the second terminal after entering from the first terminal of the packaging material molding machine, and is bent at the second terminal while being bent in a pouch shape. And the first and second terminals of the packaging material molding machine are connected to each other to provide a first direction in which the packaging material moves by traction, and the heat sealing mechanism provides heat sealing for the shape of the formed pouch while the packaging material is bent. In progress, the material supply mechanism quantitatively provides the material waiting for packaging, the material waiting for packaging flows into the inside of the packaging material molded into a pouch through the material induction unit, and the material induction unit is the second direction in which the packaging material moves in a straight line. It provides, and the first direction and the second direction form a narrow angle, the narrow angle relates to a material packaging device based on a hot sealing made of an acute angle. The present design ensures that a quantity of material flows directly and completely into the hot-sealed packing bag, thereby reducing the accumulation and further preventing the formation of a hollow packing bag and the material being inserted into the hot-sealed area. At the same time, it can increase the efficiency and usability according to the packaging.

Description

Material packaging device based on heat sealing {MATERIAL PACKAGING DEVICE BASED ON HEAT SEALING}

The present invention relates to the field of packaging technology, and more particularly, to a material packaging device based on heat sealing.

Currently, as people's living standards continue to increase, many products packaged by heat sealing are appearing in the market one after another, and accordingly, the demand for conventional packaging that conducts heat sealing for various materials is also greatly increasing. Going further, it is leading the rapid development of the Korean packaging industry. In the material packaging industry, companies typically use material packaging machines to make pouches through heat-sealing packaging for materials such as coffee sugar deoxidizer or freshness maintaining agent, and material packaging machines can carry out automated packaging of materials. Because of this, we have a vision that can develop widely.

Existing material packaging machines include an integral molding machine and a heat sealing device to heat seal the packaging material in a pouch form, and the packaging material flows into the heat sealing device through the paper guide of the integrated molding machine to form a packing bag, and the integrated molding machine is a material collection tank. And a material supply pipe, the outlet of the material collection tank communicates with the material supply pipe, and the material supply pipe communicates with the end of the paper guide part. Accordingly, the material waiting for packaging flows into the integrated molding machine from the material collection tank, and then falls into the packaging material through the material input pipe, and the heat sealing device seals the packaging material to complete the production of the packing bag. Thus, a single or chain-shaped packing bag is formed. However, since the material recovery tank and the material supply pipe of the existing one-piece molding machine are not connected vertically, when packing for a material with relatively high viscosity, the material remains on the wall of the material recovery tank, so there is less material inside the packing bag. It causes phenomena such as filling or emptying of the packing bag, and at the same time, when the machine is operated, the remaining material momentarily rushes into the material supply pipe due to excessive vibration frequency. When performing the thermal sealing operation, there is a problem that the edge material of the packaging material and the dust adhering to the machine surface are heat sealed together, resulting in a defective state such as material or powder being inserted into the sealing area.

The present invention is proposed to overcome the deficiencies and problems of the existing technology as described above, and its purpose is to prevent the formation of a hollow packing bag and to prevent material from being inserted into the hot-sealed area, thereby reducing the efficiency and mass of automated production. It is to provide a material packaging device based on heat sealing that can increase

In order to achieve the above object, the present invention adopts and uses the following technical solutions.

The heat sealing-based material packaging apparatus according to the present invention includes at least one packaging material forming machine; Heat sealing mechanism; And a material supply mechanism.

The packaging material molding machine has a first terminal portion and a second terminal portion, and the packaging material enters from the first terminal portion and is output from the second terminal portion, and the packaging material is formed into a pouch shape while being bent at the second terminal portion. In addition, the second terminal portion maintains the opening of the packaging material facing upward in a stable state, and the first terminal portion and the second terminal portion of the packaging material forming machine are connected to each other to provide a first direction in which the packaging material moves by traction. do.

The heat sealing device is installed at the output end of the second terminal of the packaging material forming machine, and the heat sealing device performs heat sealing on the pouch shape formed while the packaging material is bent.

The material supply mechanism provides the material waiting for packaging in a regular manner, and the material supply mechanism includes a material induction unit, and the material induction unit induces the material waiting for packaging to flow into the inside of the packaging material molded into a pouch. The material guiding unit provides a second direction in which the material waiting for packaging moves in a straight line, and the second direction allows the material disposed in the material guiding unit to flow into the inside of the packaging material formed in a pouch shape in a free fall state. Satisfy

The first direction and the second direction form a narrow angle, and the narrow angle is made of an acute angle.

In the above-described scheme, in addition, the packaging material molding machine, the heat sealing mechanism, and the material supply mechanism are assembled together on the bed plate, the material guide portion of the material supply mechanism extends toward the second terminal portion of the packaging material molding machine, and the material guide portion It is made in the shape of a pipe, and the extended portion of the material guide portion faces the opening of the packaging material.

The above-described solution is, in addition, the bed plate is also provided with a material supply mechanism and a material recovery mechanism of the packaging material, the material supply mechanism and the material recovery mechanism form a roll-to-roll operation mode, the The material supply mechanism sends out the sheet-shaped packaging material, the material recovery mechanism collects and winds the packing bag after the packaging is completed, and the packaging material forming machine and the heat sealing mechanism are mounted on the moving route of the packaging material.

The above-described method is, in addition, the packaging material forming machine is composed of a second paper guiding plate and a third type guiding plate formed by bending both sides of the first paper guiding plate and the first paper guiding plate, respectively, and the second paper guiding plate And the third paper guiding plate gradually approaches from the first terminal to the second terminal of the packaging material forming machine, and the second paper guiding plate is separated from the first paper guiding plate, and the third paper guiding plate is All bent plywood is formed on one side away from the first paper guiding plate, and the plywood forms clip slots with the second paper guiding plate and the third paper guiding plate, respectively, and the clip slot clamping the edge of the packaging material. It is provided to limit its position.

The above-described solution, in addition, includes a first heat sealant and a second heat sealant in which a heat seal operation is performed while being folded to each other, and the first heat sealant and the second heat sealant are two It is divided in turn and bent to each other and heat-sealed, thereby forming a whole sealed packaging for one independent packing bag disposed on the packaging material.

The above-described solution, in addition, the material supply mechanism also includes a hopper; And a material weighing classifier; wherein the material weighing classifier classifies materials based on volume, and the material weighing classifier is connected to the output terminal of the hopper, and the material weighing classifier has a vertical material drop, At one side of the material induction part, a trumpet sphere is formed that is connected to the vertical material drop opening of the material weighing classifier.

The above-described scheme, in addition, the heat sealing mechanism is an eccentric block; Return material; A connecting sheet connected by the bed plate and the activity; And a rotating sphere animal fixed to the connecting sheet, wherein the first heat seal material and the connecting sheet are connected by sliding, and the second heat seal material is fixed to the connecting sheet, and the rotating sphere animal Is provided to rotate the eccentric block, the eccentric block is provided to bring the first heat seal closer to the second heat seal, and one side of the return object is connected to the first heat seal. And the other side of the return material is connected to the connecting sheet, and the first heat sealing material is provided with a first heat sealing block and a second heat sealing block perpendicular to the first heat sealing block, and the A third heat sealing block and a fourth heat sealing block are installed in the second heat sealing material, and the third heat sealing block and the first heat sealing block are folded to each other to clamp the packaging material, and the second heat sealing block And the fourth heat sealing block are folded to each other to clamp the packaging material.

The above-described solution, in addition, the material supply mechanism is a roller; Unwinding roller; A first guide roller; A second guide roller; And an unwinding drive, wherein both the roller and the unwinding roller are connected to the bed plate by rotation, and the second induction roller and the unwinding drive are both fixed to the bed plate, and the first The guide roller and the bed plate are connected by sliding, and the packing material disposed on the roller bypasses the unwinding roller, the first guide roller and the second guide roller in order, and then flows into the packing material forming machine, and the unwinding tool The animal is provided to rotate the unwinding roller, the first guiding roller has a first sensing block installed on one side adjacent to the second guiding roller, and the first guiding roller is away from the second guiding roller. A second detection block is installed on one side, a first distance detector and a second distance detector are installed on the bed plate, and the first distance detector is used to detect the distance between the first distance detector and the first detection block. And the second distance detector is provided to detect a distance between the second distance detector and the second detection block.

The above-described scheme, in addition, the material recovery mechanism includes a material pulling mechanism; Material cutting mechanism; And a winding mechanism; wherein the material pulling mechanism includes a second clamping drive for rotating the first clamping roller, the second clamping roller, and the second clamping roller, and the second clamping drive comprises the bed plate Is fixed to, a clamping passage is formed between the first clamping roller and the second clamping roller, the clamping passage is provided to pass the pouch discharged from the heat sealing mechanism, and the material cutting mechanism is fixed to the bed plate A fixed cutter and an active cutter connected by sliding to the bed plate, and a cutter driving member for driving closer to or away from the fixed cutter, and a cutting passage is formed between the fixed cutter and the active cutter. And the material supply end of the cutting passage communicates with the material discharge end of the clamping passage formed between the first clamping roller and the second clamping roller, and the winding mechanism includes a first tension roller, a second tension roller, and a third tension. It includes a roller, a winding roller, and a winding drive for rotating the winding roller, the winding drive is fixed to the bed plate, and the first tension roller and the second tension roller are both rotated with the bed plate. Is connected, the third tension roller is connected to the bed plate by sliding, the first tension roller and the second tension roller are both connected to the bed plate by rotation, and the third tension roller is the bed plate The pouch is connected by sliding with and is wound around the outer circumference of the winding roller after bypassing the first tension roller, the second tension roller, and the third tension roller in order.

The above-described solution is, in addition, the bed plate is also provided with an inspection mechanism, the inspection mechanism is the first clamping sheet, the second clamping sheet, the first time sensor, the second time sensor and inspection fixed to the bed plate. A processor, wherein both the first and second visual sensors are connected to the inspection processor, and an inspection passage communicating with the output end of the heat sealing mechanism is formed between the first clamping sheet and the second clamping sheet, , An inspection hole is provided in the first clamping sheet, the inspection hole is provided so that the inside of the inspection passage and the inside of the inspection passage communicate, and the inspection head of the first visual sensor is installed corresponding to the inspection hole, The inspection head of the second visual sensor is installed at the material input end of the inspection passage.

The present invention is designed to effectively design the structure and layout of the packaging material forming machine and improve the material supply of the material supply mechanism to ensure that the quantity of material directly and completely enters the inside of the hot-sealed packing bag, thereby preventing accumulation. In addition, there is a beneficial effect of increasing the efficiency and usability of packaging while preventing the formation of a hollow packing bag and being inserted into a heat-sealed area.

1 is a diagram showing the configuration of the present invention in three dimensions.
2 is a diagram showing the configuration of the present invention three-dimensionally from a different perspective.
3 is a view showing a part of the material supply mechanism according to the present invention.
Figure 4 is a view showing a three-dimensional heat sealing mechanism according to the present invention.
5 is a diagram showing the configuration of a hot sealing mechanism, a material pulling mechanism, and a material cutting mechanism according to the present invention in three dimensions.
6 is a diagram showing the configuration of a winding mechanism according to the present invention in three dimensions.
7 is a diagram showing the configuration of a packaging material molding machine according to the present invention in three dimensions.
8 is a diagram showing a configuration consisting of a packaging material molding machine and a material supply mechanism according to the present invention in three dimensions.

Hereinafter, with reference to the accompanying drawings, the concept and specific configurations of the present invention and technical effects thereof will be described in more detail in order to fully understand the object features and effects of the present invention.

First of all, in the description of the present invention, terminology is'top (top)','bottom (bottom)','left','right','vertical','horizontal','me', The terminology indicating a direction or positional relationship such as'outside' is based on the direction or positional relationship shown in the accompanying drawings, and this is only for convenience in description, and a specific device or unit must indicate a specific direction. It does not indicate or imply that structures and manipulations that have or have a specific direction are made. Therefore, this should not be construed as limiting to the present invention. In addition,'first','second','third', and'fourth' as technical terms are only used to describe the purpose and should not be understood as indicating or implying their relative importance. .

1 to 8, the present invention is at least one packaging material molding machine (7); A heat sealing mechanism 3; And a material supply mechanism (1); it relates to a material packaging device based on a heat seal, including.

The packaging material molding machine 7 includes a first terminal portion 71 and a second terminal portion 72, and the packaging material 100 enters from the first terminal portion 71 and then the second terminal portion 72 ), and the packaging material 100 is formed into a pouch shape while being bent at the second terminal portion 72, and the second terminal portion 72 faces upward with the opening of the packaging material in a stable state. And the first terminal portion 71 and the second terminal portion 72 of the packaging material forming machine are connected to each other to provide a first direction in which the packaging material moves by traction.

The heat sealing device 3 is installed at the output end of the second terminal 72 of the packaging material forming machine, and the heat sealing device 3 performs heat sealing on the pouch shape formed while the packaging material is bent. Allow the pouch to form.

The material supply mechanism 1 provides the material waiting for packaging in a regular manner, and the material supply mechanism 1 includes a material induction unit 11, and the material induction unit 11 is a pouch-shaped material waiting for packaging. In addition to inducing the inflow of the molded packaging material into the interior, the material guiding unit 11 provides a second direction in which the material waiting for packaging moves in a straight line, and the second direction is the material disposed in the material guiding unit 11 It satisfies that it flows into the inside of the packaging material molded into a pouch in a free fall state.

The first direction and the second direction form a narrow angle, and the narrow angle is made of an acute angle.

The work flow according to the present invention is as follows. When the packaging material 100 is sent to the packaging material forming machine 7, it is output from the second terminal 72 after entering from the first terminal portion 71, and the packaging material is bent at the second terminal portion 72 It is molded in a pouch shape, and in addition, the second terminal portion 72 keeps the opening of the packaging material facing upward in a stable state. At this time, the second heat sealant 33 and the second heat sealant 34 of the heat sealing device 3 are heat-sealed with respect to the output end of the packaging material in which the pouch-shaped body is formed, and partially sealed and a packbag having an opening is formed. Make it possible. Subsequently, the material induction unit 11 of the material supply mechanism 1 induces a quantity of material waiting for packaging to flow into the inside of the packaging material molded in a pouch shape, and accordingly, the packaging material continuously moves, at this time, the heat sealing mechanism The first heat sealant 33 and the second heat sealant 34 of (3) are heat-sealed with respect to the packaging material formed in the form of a pouch again, so that the material is stored in a sealed state inside the packing bag by sealing. There is a cycle. Here, in the process of operation, the material guiding unit 11 provides a second direction in which the material waiting for packaging moves in a straight line so that the material inside the material guiding unit 11 falls into the inside of the packaging material molded in a pouch shape in a free fall state. In this way, the material discharged from the material supply mechanism 1 is vertically dropped into the packing bag. When the material is discharged vertically, the resistance to overcome is relatively small, the contact with the material guide 11 is small, and the free-fall type in a linear vertical state that reduces sticking, allows the material to have a relatively fast discharge speed and accuracy. To prevent the formation of empty packing bags. In addition, the first direction in which the packaging material provided by the line between the first terminal portion 71 and the second terminal portion 72 of the packaging material forming machine is connected to each other is moved by traction forms a narrow angle with the second direction, The narrow angle is made of an acute angle, and such a configuration can effectively ensure that the material waiting for packaging derived from the material induction unit 11 is supplied with the opening formed in the packaging material being opened, and the material is It is arranged in an inclined state corresponding to the lower end so that it does not flow out through the opening, so that the material can be prevented from being inserted into a place subjected to the heat sealing treatment. At the same time, the narrow angle of the acute angle corresponding to the falling direction of the material in which the packaging material moves can change the size of the sealed pouch to suit the packaging according to different materials and quantities through a change in the traction speed here.

In addition, the packaging material molding machine 7 according to the present invention, the heat sealing mechanism 3, and the material supply mechanism 1 are assembled together on the bed plate 5, and the material guide 11 of the material supply mechanism is It extends toward the second terminal portion 72, and the material guiding portion 11 has a pipe shape, and the expanded portion of the material guiding portion faces the opening of the packaging material. In implementing this configuration, the reason why the material guide 11 is configured in a pipe shape is because it is convenient to prevent the material from flying and scattering and to guide the material. When the material guiding portion 11 is extended toward the second terminal portion 72 of the packaging material forming machine, the material may stably fall into the inside of the packing bag, and when the material guiding portion 11 is arranged vertically, the distance leading the material is Because it is shortened and the speed of packing materials becomes faster, more accurate and stable, the efficiency and mass of the packaging operation can be maximized. The material supply mechanism 1 also includes a hopper 12 and a material weighing classifier 13, which classifies materials based on volume, and the material weighing classifier 13 uses existing technology. Since it is utilized, further explanation of the principle of operation is omitted here. On the other hand, a material weighing classifier 13 is connected to the output end of the hopper 12, the material weighing classifier 13 has a vertical material dropping port, and one side of the material guide section 11 has a vertical material drop of the material weighing classifier. A trumpet bulb is formed that connects to the sphere. The above configuration realizes automatic quantitative supply and ensures that the entire material is accurately derived.

The bed plate 5 accompanying the present invention is also equipped with a packing material supplying mechanism 2 and a material collecting mechanism 4 at its upper end, and the material supplying mechanism 2 and the material collecting mechanism 4 are roll-to-roll. A roll to roll operation mode is formed, and the material supply mechanism (2) sends out the sheet-shaped packaging material, and the material collection mechanism (4) collects and winds the packed packing bag, and the packaging material forming machine (7) and The heat sealing mechanism 3 implements an automated packaging operation as it is mounted on the moving route of the packaging material.

7 and 8, in this embodiment, the packaging material molding machine 7 according to the present invention includes a second paper formed by bending both of the first paper guiding plate 73 and the first paper guiding plate, respectively. Consisting of a guiding plate 74 and a third type guiding plate 75, the second type guiding plate 74 and the third type guiding plate 75 are gradually closer to the second terminal portion of the packaging material forming machine. Approaching, and on one side where the second paper guiding plate is away from the first paper guiding plate and the third type guiding plate away from the first paper guiding plate, a bent plywood 76 is formed, and a plywood 76 The second paper guide plate 74 and the third paper guide plate 75 and each form a clip slot, the clip slot is provided to limit the position by clamping the edge of the packaging material. This configuration is very suitable for carrying out in the process of continuously packaging sheet-shaped packaging materials because of its simple structure.

As shown in FIGS. 1 and 4, the heat sealing device 3 according to the present invention includes a first heat seal 33 and a second heat seal 34 that are folded to each other while performing a heat sealing operation. , The first heat-sealed material 33 and the second heat-sealed material 34 are divided in two steps and bent to each other and heat-sealed, thereby forming a whole sealed packaging for one independent packing bag disposed on the packaging material. In addition, the heat sealing mechanism 3 according to the present invention includes an eccentric block 31; Return material 32; A connecting sheet 36 connected to the bed plate 5 by activity; And a rotating instrument 35 fixed to the connecting sheet 36, wherein the first heat sealant 33 and the connecting sheet 36 are connected by sliding, and the second heat sealant (34) is fixed to the connecting sheet (36), the rotating sphere (35) is provided to rotate the eccentric block (31), the eccentric block (31) is the first heat seal (33) ) Is provided to approach the second heat seal 34, one side of the return material 32 is connected to the first heat seal 33, and the other side of the return material 32 It is connected to the connecting sheet 36. When it is necessary to proceed with the heat sealing treatment, the rotating sphere animal 35 rotates the eccentric block 31 so that the eccentric block 31 is moved away from one of the output ends of the rotating sphere animal 35 so that the first heat seal material 33 By contacting the first heat seal material 33 to approach the second heat seal material 34, and when the heat sealing process is completed, the rotating sphere animal 35 continuously rotates and the eccentric block 33 Is separated from the first heat seal 33 by moving away from one side of the output end of the rotating instrument 35, and the first heat seal 33 is driven by the return material 32 to the second heat seal. 34). Specifically, the return object 32 is made of a spring, and the rotating instrument 35 is made of a server motor. The present invention is by installing an eccentric block 31 for moving the first heat seal 33 at the output end of the rotating instrument 35 in the heat sealing mechanism 3, so that the rotating instrument 35 It is possible to achieve the purpose of simplifying the structure of the heat sealing mechanism 3 by driving the first heat sealant 33 without the need for use, and further reduce the manufacturing cost of the pouch packaging machine. At the same time, the heat sealing device 3 according to the present invention allows the heat sealing device 3 to move horizontally from the bed plate 5 through an active connection between the connecting sheet 36 and the bed plate 5. In addition, it should be able to adapt to packaging materials of different specifications.

As shown in Fig. 4, the first heat sealing material 33 according to the present invention includes a first heat sealing block 331 and a second heat sealing block perpendicular to the first heat sealing block 331. 332 is installed, and a third heat sealing block 341 and a fourth heat sealing block 342 are installed in the second heat sealing material 34, and the third heat sealing block 341 and the The first heat sealing block 331 is folded to each other to clamp the packaging material, and the second heat sealing block 332 and the fourth heat sealing block 342 are folded to each other to clamp the packaging material. Accordingly, when the packaging material enters the heat sealing mechanism 3, the first heat sealing block 331 approaches the third heat sealing block 341 and provides heat to the lower end of the packaging material, that is, the lower end edge of the packing bag. Sealing is performed. At this time, the material supply mechanism 1 discharges the material so that the material falls into the inside of the packing bag, and the first heat sealing block 331 and the third heat sealing block 341 are separated. When the packaging material continuously slides at a certain distance, the first heat sealing block 331 approaches the third heat sealing block 341 and heat sealing the magnetic edge at the top of the opening of the packing bag is performed. The second heat sealing block 332 approaches the fourth heat sealing block 342 to perform heat sealing treatment on the edge of the opening side of the packing bag, thereby forming a pouch. According to the present invention, by installing the first heat sealing block 331 and the second heat sealing block 332 perpendicular to each other on the first heat sealing material 33, respectively, it is possible to effectively reduce the manufacturing cost by reducing the amount of use of the motor. . In addition, since the heat sealing mechanism 3 has an action of collecting materials into one place, it is possible to reduce the phenomenon that the material is blown away.

As shown in Figs. 2 and 3, the material supply mechanism 2 according to the present invention includes a roller 22; An unwinding roller 23; A first guide roller 24; A second guide roller 25; And an unwinding drive 26; wherein both the roller 22 and the unwinding roller 23 are connected to the bed plate 5 by rotation, and the second guide roller 25 All of the winding drives 26 are fixed to the bed plate 5, the first guide roller 24 and the bed plate 5 are connected by sliding, and the packaging material disposed on the roller 22 is After bypassing the unwinding roller 23, the first guiding roller 24 and the second guiding roller 25 according to the sequence, they are introduced into the packaging material forming machine 7, and the unwinding drive 26 is used for the unwinding It is provided to rotate the roller 23. The unwinding of the roller 22 is implemented by moving the packaging material using friction between the unwinding roller 23 and the packaging material. When there is no tension, the packaging material is easily overlapped and it is difficult to enter the next step, and when the tension is excessively high, there is a problem that it is easily broken. The present invention allows the packaging material to have a certain tension through the first guiding roller 24 and the second guiding roller 25, and the user also has the first guiding roller 24 so that the packaging material does not become excessively loose or have excessive tension. It is possible to adjust the tension of the packaging material by adjusting the distance between the and the second guide roller 25.

As shown in Fig. 3, the first guiding roller 24 according to the present invention has a first sensing block 241 installed on one side adjacent to the second guiding roller 25, and the first guiding roller (24) A second detection block 242 is installed on one side away from the second guide roller 25, and the bed plate 5 according to the present invention has a first distance detector 51 and a second distance detector 52 is installed, and the first distance detector 51 is provided to detect the distance between the first distance detector 51 and the first detection block 241, and the second distance detector 52 It is provided to detect the distance between the second distance detector 52 and the second detection block 242. According to this configuration, the present invention allows the user to check the distance between the first guide roller 24 and the second guide roller 25 by using the first distance detector 51 and the second distance detector 52. The distance between the first guide roller 24 and the second guide roller 25 can be determined so as to determine whether the adjustment for is excessively loose or excessive tension exists.

2 and 6, the material recovery mechanism 4 according to the present invention includes a material pulling mechanism 41; A material cutting mechanism 42; And a winding mechanism 43; wherein the material pulling mechanism 41 is a second clamping tool for rotating the first clamping roller 411, the second clamping roller 412, and the second clamping roller 412. Including an animal 414, the second clamping drive 414 is fixed to the bed plate 5, and a clamping passage is formed between the first clamping roller 411 and the second clamping roller 4122 The clamping passage is provided so that the pouch discharged from the heat sealing mechanism 3 passes. At this time, when the second clamping drive 414 rotates the second clamping roller 412, the pouch-shaped packaging material moves by driving the second clamping roller 412, and the second clamping roller moves while the pouch moves. Rotate (411). The material pulling mechanism 41 pulls the sheet-shaped packaging material molded into a pouch, so that the packaging material is continuously moved and a continuous packaging operation is performed. On the other hand, as shown in Figs. 1, 2 and 5, the material cutting mechanism 42 according to the present invention slides on the fixed cutter 421 fixed to the bed plate 5 and the bed plate 5 An active cutter 422 connected by the active cutter 422 and a cutter driving member 423 for driving closer to or away from the fixed cutter 421, wherein the fixed cutter 421 and the active cutter A cutting passage is formed between 422, and a material supply end of the cutting passage communicates with a material discharge end of the clamping passage. The pouch is changed into a pouch one by one so that the material cleaning mechanism 42 cuts the pouch to provide convenience for subsequent use. In addition, as shown in FIGS. 1, 2 and 6, the winding mechanism 43 according to the present invention includes a first tension roller 431, a second tension roller 432, a third tension roller 433, and It includes a winding roller 434 and a winding drive 435 for rotating the winding roller 434, the winding drive 435 is fixed to the bed plate 5, the first tension roller ( Both 431 and the second tension roller 432 are connected to the bed plate 5 by rotation, and the third tension roller 433 is connected to the bed plate 5 by sliding, and a heat sealing mechanism The pouch discharged from (3) is wound around the outer periphery of the winding roller 434 after bypassing the first tension roller 431, the second tension roller 431 and the third tension roller 433 in order. When it is not necessary to cut the pouch into each pouch, the winding operation for the pitch may be performed using the winding mechanism 43. Meanwhile, the first tension roller 431, the second tension roller 432, and the third tension roller 433 are for maintaining the tension of the pouch, and are provided so that the pouch is neatly wound around the winding roller 434. In this case, the user may prevent the pouch from being excessively loose or having excessive tension by adjusting the tension of the pouch by adjusting the distance between the second tension roller 433 and the second tension roller 432.

As shown in Fig. 6, the winding mechanism 43 according to the present invention also includes a damping module 436, which is a fourth tension roller 4362 and a fifth tension roller 4362. And it includes a damping unit (4363) fixed to the bed plate (5), and the pouch discharged from the heat sealing mechanism (3) is a first tension roller 431, a second tension roller 432, a third After bypassing the tension roller 433, the fourth tension roller 4362 and the fifth tension roller 4362, it is wound around the outer circumference of the winding roller 434, and a screw 4366 is fastened to the damping unit 4362 And, the distal end of the screw 4362 is in contact with the pouch of the fifth tension roller 4362, and the user rotates the screw 4362 to change the degree of contact between the pouch and the fifth tension roller 4362 It is possible to change the frictional force between the tension rollers 4362 and further finely adjust the winding speed for the pouch.

1, 2 and 5, there is also an inspection device 6 is installed on the top of the bed plate 5 according to the present invention, all of the inspection devices 6 on the bed plate 5 It includes a fixed first clamping sheet 61, a second clamping sheet 62, a first visual sensor 63, a second visual sensor 64, and an inspection processor, and the first visual sensor 63 All the two-vision sensors 64 are connected to the inspection processor, and an inspection passage communicating with the output end of the heat sealing mechanism 3 is formed between the first clamping sheet 61 and the second clamping sheet 62, , The first clamping sheet 61 is provided with an inspection hole 611, the inspection hole 611 is provided so that the inside of the inspection passage and the inside of the inspection passage communicate, and the first time sensor 63 The inspection head is installed to correspond to the inspection hole 611, and the inspection head of the second visual sensor 64 is installed at the material input end of the inspection passage. Here, the first visual sensor 63 is provided to check whether the pouch contains material and whether the material is filled, and the second visual sensor 64 is used to determine whether the material is inserted into the sealing portion of the pouch. Equipped to check whether or not. The specific work flow is that before the pouch enters the inspection passage, the second visual sensor 64 photographs the sealing area of the pouch, and the inspection processor is the sealing area photographed by the second visual sensor 64 and the normal sealing area of the pouch. Check whether the material is fitted in the sealing area by comparing. On the other hand, when the pouch enters the inspection passage, a portion of the normal pouch protrudes from the inspection hole 611 and the normal pouch does not transmit light. At this time, the first visual sensor 63 passes through the inspection hole 611 The pouch is photographed, and then the inspection processor compares the pouch photographed by the first visual sensor 63 with the normal pouch, thereby inspecting whether or not material is contained in the pouch and whether the material is filled.

As shown in Figure 8, the bed plate 5 according to the present invention is also provided with a handle 54 connected by sliding, the handle 54 is provided with a line roller 53 connected by rotation, and , The line roller 53 is installed on the top of the packaging material forming machine 7 according to the present invention. In addition, an oxygen indicator line indicating a change in the oxygen content inside the food bag containing the pouch is inserted into the sealing portion of the pouch. According to the present invention, as the line is supplied through the line roller 53, when the heat sealing device 3 seals the packaging material, the oxygen indicator line can be sealed together. At the same time, since the handle 54 can move in response to the bed plate 5, the user can adjust the position of the line roller 53 while pulling the handle 54, and accordingly, the sealing portion is arranged. Allows you to adjust the position of the oxygen leader.

The present invention is designed to effectively design the structure and layout of the packaging material forming machine and improve the material supply of the material supply mechanism to ensure that the quantity of material directly and completely enters the inside of the hot-sealed packing bag, thereby preventing accumulation. Reduction and furthermore, it has a beneficial effect of increasing the efficiency and usability of packaging while preventing the formation of a hollow packing bag and being inserted into the hot-sealed area, and meets the requirements for hot-sealing packaging.

As described above, the present invention has been illustrated and described in connection with a specific embodiment, but those skilled in the art have known that various modifications and changes are possible within the limit without departing from the spirit and scope of the invention indicated by the claims. Anyone who grows up will be easily aware of it. Accordingly, various improvements or modifications having the same effect within the scope not departing from the spirit of the present invention should be included in the claims according to the present invention.

Claims (10)

At least one packaging material molding machine 7; A heat sealing mechanism 3; And a material supply mechanism (1); As a heat sealing-based material packaging device comprising,
The packaging material molding machine 7 has a first terminal portion 71 and a second terminal portion 72, and after the packaging material 100 is introduced from the first terminal portion 71, the second terminal portion 72 ), and the packaging material 100 is formed into a pouch shape while being bent at the second terminal portion 72, and the second terminal portion 72 is also provided with the opening of the packaging material 100 in a stable state. And the first terminal portion 71 and the second terminal portion 72 of the packaging material forming machine 7 are connected to each other in a first direction in which the packaging material 100 moves by traction And
The heat sealing mechanism 3 is installed at the output end of the second terminal 72 of the packaging material molding machine 7, and the heat sealing mechanism 3 is formed in a pouch shape while the packaging material 100 is bent. Heat sealing,
The material supply mechanism 1 provides the material waiting to be packaged in a regular manner, and the material supply mechanism 1 includes a material induction unit 11, and the material induction unit 11 has a pouch shape The material guide unit 11 provides a second direction in which the material waiting for packaging moves in a straight line, and the second direction is the material guide unit 11 Satisfying that the material placed in the free fall state to flow into the inside of the packaging material 100 molded in a pouch shape,
The first direction and the second direction form a narrow angle, and the narrow angle is formed of an acute angle. The method of claim 1,
The packaging material molding machine 7, the heat sealing mechanism 3, and the material supply mechanism 1 are assembled together on the bed plate 5,
The material guiding portion 11 of the material supplying mechanism 1 extends toward the second terminal portion 72 of the packaging material forming machine 7,
The material guiding portion 11 is formed in a pipe shape, and the expansion portion of the material guiding portion 11 is a heat sealing-based material packaging device, characterized in that it faces the opening of the packaging material. The method of claim 2,
The bed plate 5 is provided with a material supply mechanism 2 for supplying the packaging material and a material collection mechanism 4 for recovering the packaging material, and the material supply mechanism 2 and the material collection mechanism 4 Forms the Roll to Roll working mode,
The material supply mechanism 2 sends out a sheet-shaped packaging material, and the material recovery mechanism 4 collects and winds the packing bag that has been packaged,
The packaging material molding machine (7) and the heat sealing mechanism (3) are heat sealing-based material packaging apparatus, characterized in that mounted on the moving route of the packaging material. The method according to any one of claims 1 to 3,
The packaging material forming machine 7 includes a second paper guiding plate 74 and a third paper guiding plate 75 formed by bending both sides of the first paper guiding plate 73 and the first paper guiding plate 73, respectively. Composed,
The second paper guiding plate 74 and the third paper guiding plate 75 approach gradually from the first terminal portion 71 of the packaging material forming machine 7 to the second terminal portion 72, and On one side of the second paper guiding plate 74 away from the first paper guiding plate 73 and the third paper guiding plate 75 on one side away from the first paper guiding plate 73, both bent plywood 76 ) Is formed,
The plywood 76 forms a clip slot with the second paper guiding plate 74 and the third paper guiding plate 75, respectively,
The clip slot is a hot sealing-based material packaging apparatus, characterized in that provided to limit the position by clamping the edge of the packaging material. The method according to any one of claims 1 to 3,
The heat sealing device (3) includes a first heat seal (33) and a second heat seal (34) in which a heat seal operation is performed while being folded to each other, and the first heat seal (33) and the second The heat-sealing material 34 is divided in two steps and bent to each other and heat-sealed, and accordingly, a heat-sealing-based material packaging apparatus is formed for one independent packing bag disposed on the packaging material. The method according to any one of claims 1 to 3,
The material supply mechanism 1 further includes a hopper 12 and a material weighing classifier 13,
The material weighing classifier 13 sorts materials based on volume, and the material weighing classifier 13 is connected to the output terminal of the hopper 12, and the material weighing classifier 13 Equipped,
Heat sealing-based material packaging apparatus, characterized in that a bugle sphere connected to a vertical material drop of the material weighing classifier (13) is formed on one side of the material guide (11). The method of claim 5,
The heat sealing mechanism (3) an eccentric block (31), a return material (32), a connecting sheet 36 connected by activity with the bed plate 5, and a rotating instrument fixed to the connecting sheet 36 It further includes (35),
The first heat seal 33 and the connecting sheet 36 are connected by sliding,
The second heat seal 34 is fixed to the connecting sheet 36,
The rotating implement 35 is provided to rotate the eccentric block 31, and the eccentric block 31 makes the first heat seal material 33 close to the second heat seal material 34 Provided to go,
One side of the return material 32 is connected to the first heat seal 33 and the other side of the return material 32 is connected to the connecting sheet 36,
The first heat sealing material 33 is provided with a first heat sealing block 331 and a second heat sealing block 332 perpendicular to the first heat sealing block 331, and the second A third heat sealing block 341 and a fourth heat sealing block 342 are installed in the heat sealing material 34, and the third heat sealing block 341 and the first heat sealing block 331 are The packaging material is clamped while being folded, and the second heat sealing block (332) and the fourth heat sealing block (342) are folded to each other to clamp the packaging material. The method of claim 3,
The material supply mechanism 2 includes a roller 22, an unwinding roller 23, a first guiding roller 24, a second guiding roller 25, and an unwinding driving member 26,
Both the roller 22 and the unwinding roller 23 are connected to the bed plate 5 by rotation, and the second guide roller 25 and the unwinding drive 26 are all the bed plates. It is fixed to (5), the first guide roller 24 and the bed plate 5 are connected by sliding, and the packaging material disposed on the roller 22 is the unwinding roller 23, After bypassing the first guide roller 24 and the second guide roller 25, it is introduced into the packaging material forming machine 7, and the unwinding drive 26 rotates the unwinding roller 23. And the first guiding roller 24 is provided with a first detection block 241 on one side adjacent to the second guiding roller 25, and the first guiding roller 24 is the second guiding roller A second detection block 242 is installed on one side away from the roller 25,
The bed plate 5 is provided with a first distance detector 51 and a second distance detector 52, and the first distance detector 51 includes the first distance detector 51 and the first detection block. (241) is provided to detect the distance between, and the second distance detector (52) is provided to detect the distance between the second distance detector (52) and the second detection block (242). Material packaging device based on heat sealing. The method of claim 3,
The material recovery mechanism 4 includes a material pulling mechanism 41, a material cutting mechanism 42 and a winding mechanism 43,
The material pulling mechanism 41 includes a first clamping roller 411, a second clamping roller 412, and a second clamping drive 414 for rotating the second clamping roller 412,
The second clamping drive 414 is fixed to the bed plate 5, a clamping passage is formed between the first clamping roller 411 and the second clamping roller 412, and the clamping passage It is provided to pass the pouch discharged from the heat sealing mechanism 3,
The material cutting mechanism 42 is close to the fixed cutter 421 fixed to the bed plate 5 and the active cutter 422 connected to the bed plate 5 by sliding and the active cutter 422 Includes a cutter drive 423 for driving away from the fixed cutter 421, a cutting passage is formed between the fixed cutter 421 and the active cutter 422, and a material supply end of the cutting passage Is in communication with the material discharge end of the clamping passage,
The winding mechanism 43 is a winding drive for rotating the first tension roller 431, the second tension roller 432, the third tension roller 433, the winding roller 434, and the winding roller 434 Including 435, the winding drive 435 is fixed to the bed plate 5, and the first tension roller 431 and the second tension roller 432 are both the bed plate 5 And the third tension roller 433 is connected to the bed plate 5 by sliding, and the first tension roller 431 and the second tension roller 432 are both connected to the bed It is connected to the plate 5 by rotation, the third tension roller 433 is connected to the bed plate 5 by sliding, and the winding mechanism 43 further includes a damping body 436, The damping module 436 includes a fourth tension roller 4357, a fifth tension roller 4362, and a damping unit 4362 fixed to the bed plate 5,
The pouch output from the heat sealing mechanism (3) is, in order, the first tension roller (431), the second tension roller (432), the third tension roller (433), the fourth tension roller (4361). And the fifth tension roller 4362 is wound around the outer periphery of the winding roller 434 after excluding the right,
The damping unit (4363) is a screw (4364) is fastened, and the distal end of the screw (4364) is provided to contact the pouch disposed on the fifth tension roller (4362). Packaging device. The method of claim 3,
The bed plate 5 is also equipped with an inspection device 6,
The inspection mechanism 6 includes a first clamping sheet 61 fixed to the bed plate 5, a second clamping sheet 62, a first visual sensor 63, a second visual sensor 64, and an inspection processor. Including,
Both the first visual sensor 63 and the second visual sensor 64 are connected to the inspection processor, and between the first clamping sheet 61 and the second clamping sheet 62, the heat sealing mechanism ( An inspection passage communicating with the output end of 3) is formed, and an inspection hole 611 is provided in the first clamping sheet 61, and the inspection hole 611 communicates with the inside of the inspection passage. And the test head of the first time sensor 63 is installed to correspond to the test hole 611, and the test head of the second time sensor 64 is installed at the material input end of the test passage. Material packaging device based on heat sealing, characterized in that.

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