KR102443776B1 - Can lift device and can Seamer - Google Patents

Abstract

The present invention relates to a container lift apparatus provided in a container sealing apparatus. Disclosed in one embodiment is the container lift apparatus comprising: a base unit having a lifting block moving up and down therein; and a pedestal detachably coupled to an upper part of the lifting block and supporting the container. The container lift apparatus can lift the container to be sealed while stably and elastically supporting the container.

Description

A container lifting device and a container sealing device having the same {Can lift device and can Seamer}

The present invention relates to a sealing device for sealing a container, and more particularly, to a container lifting device for lifting and lowering a container while supporting a can-shaped container, and to a container sealing device having the device.

In general, a can-shaped container is often used to hold a beverage. The can is usually sealed by covering the opening formed on the top of the can body made of aluminum with a lid, and winding the lid rim along the outer circumferential surface of the top of the can body. The operation of attaching and sealing the lid to the top of the can as described above is called seaming, and a device for performing such sealing operation is also called a seaming device or a seamer.

On the other hand, various types of sealing devices for sealing can-shaped containers have been known and used in the prior art, but most devices occupy a very large space for mass production of cans, and even in the case of devices for producing small quantities, the devices are relatively It has a large volume and a certain level of skill is required for sealing operation.

On the other hand, the conventional container sealing device is provided with a pedestal for supporting the container from below in order to adhere the container to the chuck of the sealing device. If the size of the container to be sealed is changed to, for example, 350ml or 500ml, the base needs to be replaced accordingly.

Patent Literature: Korean Patent Publication No. 2019-0098404 (published on August 22, 2019)

According to one embodiment of the present invention, it is an object of the present invention to provide a container lifting device capable of elevating the container while stably and elastically supporting the container to be sealed, and a container sealing device having the same.

According to an embodiment of the present invention, there is provided a container lifting device provided in a container sealing device, the base portion having a lifting block moving up and down therein; and a pedestal that can be detachably coupled to the upper portion of the lifting block and supports the container; discloses a container lifting device comprising a.

According to an embodiment of the present invention, there is provided a container sealing device for sealing a lid on an upper portion of a can-shaped container, comprising: a container lifting device as described above; a chuck disposed vertically above the container lifting device and capable of supporting an upper portion of the container; a first seaming roll connected to the first vertical axis to be movable about a first vertical axis disposed adjacent to the left side of the chuck; a second seaming roll connected to the second vertical axis to be movable about a second vertical axis disposed adjacent to the right side of the chuck; and a cam rotating about a first rotational axis disposed between the first vertical axis and the second vertical axis, wherein the first seaming roll and the second seaming roll are formed on the outer peripheral surface of the upper end of the container by rotation of the cam. Disclosed is a container sealing device configured to seal a container by pressurizing alternately in contact.

According to an embodiment of the present invention, an elastic member by a spring is interposed between the lower side of the container lifting device, that is, between the elevating block and the height adjustment member of the base unit or the lifting block and the container pedestal, and for rotation of the container pedestal, the container lift Since only the main body of the container pedestal rotates by putting a bearing on the upper side of the device, that is, on the container pedestal side, only the main body of the container pedestal needs to rotate when the container rotates during sealing operation. to support the container, so that the sealing of the container can be carried out smoothly.

In addition, when replacing the container pedestal according to the size of the container, in the present invention, height adjustment is possible only by additionally interposing one or more height adjusting members having different heights between the container pedestal and the base part, and the container pedestal is always the same part. Since it can be used, the number of parts to be replaced or the size of the parts are small compared to the prior art, so there is an advantage of cost reduction and easy replacement.

1 is a perspective view of a container sealing device according to an embodiment of the present invention;
2 is a partially enlarged view of the container sealing device;
3 is a perspective view of a container lifting device according to an embodiment;
4 is an exploded perspective view of a container lifting device according to an embodiment;
5 is a cross-sectional view of a container lifting device according to an embodiment;
Fig. 6 is a view for explaining the operation of attaching and sealing the container to the container sealing device.

The above objects, other objects, features and advantages of the present invention will be easily understood through the following preferred embodiments in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed subject matter may be thorough and complete, and that the spirit of the present invention may be sufficiently conveyed to those skilled in the art.

In this specification, in order to describe the positional relationship between components, terms indicating a position or direction, such as 'upper', 'lower', 'left', 'right', 'front', 'rear', etc., are used as absolute standards. may not mean, and when describing the present invention with reference to each drawing, it may be a relative expression used for convenience of description with reference to the corresponding drawing or with reference to the corresponding component.

In this specification, when a component is referred to as being on another component, it may be directly formed on the other component or a third component may be interposed therebetween. In addition, in the drawings, the thickness of the components is exaggerated for effective description of technical content.

When it is referred to in this specification that a component (A) is connected (or coupled, fastened, attached, etc.) to another component (B), it means that component (A) is directly connected to another component (B) or It means indirectly connected through a third component between them.

In the present specification, that a component (A) is 'operatively' coupled to another component (B) means that component A and component B are coupled, but include movement (linear motion, rotational motion, etc.) relative to each other. ) while being directly or indirectly coupled.

In the drawings of the present specification, the length, thickness, or width of the components are exaggerated for effective description of technical content, and the relative sizes of one component and another component may also vary according to specific embodiments.

In this specification, when terms such as first, second, etc. are used to describe components, these components should not be limited by these terms. These terms are only used to distinguish one component from another. The embodiments described and illustrated herein also include complementary embodiments thereof.

In this specification, the singular form of a component also includes the plural form unless the phrase specifically dictates otherwise. The expressions 'comprising', 'consisting of', and 'consisting of' as used in the specification do not exclude the presence or addition of one or more other elements in addition to the mentioned elements.

Hereinafter, the present invention will be described in detail with reference to the drawings. In describing the specific embodiments below, various specific contents have been prepared to more specifically describe the invention and help understanding. However, a reader having enough knowledge in this field to understand the present invention may recognize that the present invention may be used without these various specific details. In some cases, it is mentioned in advance that parts which are commonly known and not largely related to the invention in describing the invention are not described in order to avoid confusion in describing the invention.

1 is a perspective view of a container sealing apparatus 100 according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a partial structure of the interior of the container sealing apparatus 100 .

1 and 2 , a container lifting device 300 capable of placing a container 200 to be sealed is installed in front of the container sealing device 100 according to an embodiment, and the container sealing device 100 is provided. In the interior, for example, as shown in FIG. 2 , the driving means 20 such as a motor and various parts operated by the driving means 20 may be installed.

The driving means 20 may include, for example, a motor and a gearbox (eg, a reducer) connected to a rotation shaft of the motor. In one embodiment, one or more power transmission means for transmitting the rotational driving force by the driving means 20 to the first rotational shaft 31 and the second rotational shaft 41 are included. For example, in the illustrated embodiment, the power transmission means includes a first power transmission means 22 , a second power transmission means 23 , and a third power transmission means 24 , and each power transmission means is, for example, a gear. , sprockets, chains, and the like may be implemented as a known power transmission means. Also, any one of the first to third power transmission means 22, 23, and 24 may be omitted.

A cam 32 is coupled to the first rotation shaft 31 . The cam 32 is coupled to rotate integrally with the first rotation shaft 31 . Accordingly, the cam 32 may rotate by receiving the driving force of the driving unit 20 through the first and second power transmitting units 22 and 23 .

A chuck 42 is coupled to the lower end of the second rotation shaft 41 . The chuck 42 is coupled to rotate integrally with the second rotation shaft 41 . Accordingly, the chuck 42 may be rotated by receiving the driving force of the driving unit 20 through the first to third power transmitting units 22 , 23 , and 24 .

The chuck 42 may support and pressurize the container 200 to be sealed from the top. To this end, in the illustrated embodiment, an annular protrusion (not shown) is formed downward along the periphery of the outer peripheral surface of the lower part of the chuck 42, and the protrusion is formed with an annular groove formed in the lid 210 of the upper portion of the container 200 and configured to engage. In one embodiment, the chuck 42 may be detachably fixed to the lower portion of the second rotation shaft 41 by a coupling method such as screwing, and thus the chuck having a protrusion suitable for the diameter of the container 200 to be sealed. (42) can be used interchangeably.

In one embodiment, the first vertical shaft 51 and the second vertical shaft 61 are disposed on the left and right sides of the second rotation shaft 41, respectively. Each of the vertical axes 51 , 61 is attached to the device frame of the sealing device 100 by an optional fixing member. A first lever 52 is rotatably coupled to the first vertical shaft 51 . A first seaming roll 53 is rotatably mounted to a first end adjacent to the chuck 42 among both ends of the first lever 52 . The side portion of the first seaming roll 53 has a configuration capable of being pressed while in contact with the outer peripheral surface of the upper end of the container 200 . A second lever 62 is rotatably coupled to the second vertical shaft 61 . A second seaming roll 63 is rotatably mounted to a first end adjacent to the chuck 42 among both ends of the second lever 62 . The side portion of the second seaming roll 63 also has a configuration that can be pressed while in contact with the outer peripheral surface of the upper end of the container (200).

Therefore, in a state in which the container 200 is bitten by the chuck 42 , the cam 32 rotates by the rotation of the first rotation shaft 31 , and at the same time, the chuck 42 of the second rotation shaft 41 also rotates. do. At this time, when the first lever 52 is pushed as the cam 32 rotates, the first seaming roll 53 presses the outer peripheral surface of the upper end of the container 200 , and then the cam 32 pushes the second lever 62 . When pushed, the second seaming roll 63 presses the outer peripheral surface of the upper end of the container 200, so that the container 200 can be sealed while rotating.

Now, a vessel lifting device 300 according to an embodiment of the present invention will be described with reference to FIGS. 3 to 5 .

3 is a perspective view of a container lifting apparatus 300 according to an embodiment of the present invention, FIG. 4 is an exploded perspective view of the container lifting apparatus 300 , and FIG. 5 is a cross-sectional view of the container lifting apparatus 300 .

3 to 5 , the container lifting device 300 according to an embodiment may include a base part 310 , a lifting block 315 , a height adjusting member 350 , and a container pedestal 360 . have. The base part 310 is a member attached to and fixed to the container sealing device 100 and may have a cylindrical shape having an empty space therein to accommodate the lifting block 315 therein. The lifting block 315 is a member having a substantially cylindrical shape and includes a concave recess 316 in the upper center. In an embodiment, a vertical through-hole 317 is additionally formed in the lower portion of the concave portion 316 so that the center of the lifting block 315 penetrates in the vertical direction.

The inner diameter of the base portion 310 is larger than the outer diameter of the lifting block 315 , and thus the lifting block 315 may rotate with respect to the base portion 310 or slide in the vertical direction.

A guide groove 313 inclined with respect to the vertical direction is formed on the side surface of the base part 310 . The guide groove 313 may be configured in a slot shape so that an outer surface and an inner surface of the base part 310 communicate with each other. A handle 319 extending in a radially outward direction may be attached to the lifting block 315 . The handle 319 may pass through the guide groove 313 of the base 310 to be coupled to the outer surface of the lifting block 315 . For example, as shown in FIG. 5, a fitting groove 318 is formed on the outer surface of the lifting block 315, and the handle 319 is attached to the lifting block 315 by inserting and fastening the handle 319 in the fitting groove 318. ) can be combined.

With this configuration, when the user grabs the handle 319 and moves left and right, the handle 319 rises or descends simultaneously with rotation along the inclined guide groove 313, whereby the lifting block 315 moves to the base part ( 310) can rise or fall while rotating within.

One of the height adjustment member 350 and the container pedestal 360 may be detachably attached to the upper portion of the lifting block 310 . For example, Figure 5 (a) shows a case in which the height adjustment member 350 is coupled to the elevating block 315 and the container pedestal 360 is attached on the height adjusting member 350, and Figure 5 (b) is elevating A case in which the container pedestal 360 is directly attached to the block 310 is illustrated.

When sealing a container with a small capacity, the height adjustment member 350 can be interposed between the lifting block 315 and the container pedestal 360 as shown in Fig. 5 (a), and when sealing a container with a large capacity As shown in FIG. 5(b), the height adjustment member 350 may be omitted and the container pedestal 360 may be directly attached to the elevating block 310 for use.

The height adjustment member 350 may include a main body 351 and a protrusion 353 protruding downward from the main body 351 . The body portion 351 is a member of, for example, a cylindrical shape, and a concave groove portion 352 is formed in the upper surface. The protrusion 353 is a member protruding downward of the main body 351 and may be at least partially inserted into the recess 316 of the elevating block 315 . In order to stably and firmly couple the height adjustment member 350 to the elevating block 310 , the protrusion 353 preferably has a length sufficient to be inserted into the through hole 317 of the elevating block 315 . . The body part 351 and the protrusion part 353 may be integrally formed or may be separately manufactured and then combined.

In one embodiment, the height adjustment member 350 may be elastically coupled to the lifting block 315, and for this purpose, a spring 320 may be installed in the concave portion 316 of the lifting block 315 as shown. can The outer diameter of the spring 320 is approximately equal to the inner diameter of the recessed portion 316 . The inner diameter of the spring 320 is approximately the same as the protrusion 353 of the height adjustment member 350, and the protrusion 353 can be inserted into the spring 320 in a middle fit (slide fit) or loose fit (clearance fit) manner. have. In one embodiment, the washer 330 and the snap ring 340 are sequentially inserted into the upper portion of the spring 320 to fix the spring 320 to the concave portion 316 of the elevating block 315 .

The container pedestal 360 may include a main body 361 and a protrusion 363 protruding downward from the main body 361 . The body portion 351 is, for example, a member of a disk or cylindrical shape, and the upper surface may have an uneven shape to support the container 200 to be sealed. The protrusion 363 is rotatably coupled to the lower portion of the main body 361 . For example, in the illustrated embodiment, the protrusion 363 may be rotatably coupled to the body portion 361 via a bearing 365 .

The protrusion 363 may be at least partially inserted into and fastened to the concave portion 316 of the elevating block 315 or the concave portion 352 of the height adjustment member 350, whereby the container pedestal 360 is the elevating block. It is detachably fastened to the 315 or the height adjustment member 350 .

According to the configuration as described above, depending on the size of the container 200 to be sealed, the height adjustment member 350 and the container pedestal 360 may be sequentially attached to the base part 310, and only the container pedestal 360 may be attached to the base part ( 310) can be attached.

For example, Figure 5 (a) also shows a case in which the height adjustment member 350 is coupled to the elevating block 315 and the container pedestal 360 is attached on the height adjustment member 350, for example, the capacity of the container When this is small, such as 350ml, the height adjustment member 350 can be used by interposing between the lifting block 315 and the container pedestal (360). Figure 5 (b) shows a case in which the container pedestal 360 is directly attached to the lifting block 310, and when the capacity of the container is large, such as 500ml, the height adjustment member 350 is omitted and the lifting block 310 It can be used by directly attaching the container pedestal 360 to the.

In the case of Figure 5 (a), the height adjustment member 350 is elastically supported by the spring 320, and at the same time, the protrusion 353 is inserted up to the through hole 317 of the elevating block 315, so that the central axis is in the horizontal direction. fixed so that it does not wobble. In addition, since only the main body 361 of the container pedestal 360 rotates together with the container 200 during the sealing operation of the container 200 at this time, the container pedestal 360, the height adjustment member 350 and the base part 310 as a whole. It is possible to stably and elastically support the container 200 . Similarly, in the case of Fig. 5 (b), the container pedestal 360 is elastically supported by the spring 320 and at the same time the protrusion 363 is inserted up to the through hole 317 of the elevating block 315 so that the central axis is It is fixed so as not to be shaken in the horizontal direction, and only the main body 361 of the container pedestal 360 rotates with the container 200 during the sealing operation of the container 200, so that the container pedestal 360 and the base 310 are connected to the container ( 200) can be stably and elastically supported.

6 is a view for explaining an exemplary operation of sealing a container using a container sealing device.

First, as shown in 6(a), the can-shaped container 200 covered with the lid 210 is placed on the container pedestal 360, and then the handle 319 is turned to the left as shown in FIG. 3(b). At this time, since the guide groove 313 is inclined upward, as the handle 319 moves to the left, the lifting block 315 and the container pedestal 360 coupled thereto rise.

When the container pedestal 360 is fully raised, the annular groove portion of the surface of the lid 210 is engaged while being fitted into the protrusion 43 of the chuck 42, and the chuck 42 and the pedestal 360 are respectively connected to the container 200 ) is pressed in the upper and lower directions to hold the container 200 .

As described above, after the container 200 is mounted between the chuck 42 and the pedestal 360 , the driving means 20 is operated to rotate the chuck 42 . As the cam 32 is rotated by the driving means 20, the first seaming roll 53 moves in the chuck 42 direction, so that the first seaming roll 53 rotates approximately 1.8 times while the container 200 rotates approximately 1.8 times. While in contact with the outer peripheral surface of the upper end of the container 200, the pressure is pressed to seal the lid 210 and the upper portion of the container (200).

As the cam 32 rotates, the first seaming roll 53 falls off the container 200 , and then the second seaming roll 63 moves toward the chuck 42 to meet the outer peripheral surface of the upper end of the container 200 . It is pressed while touching, and thereby the portion primarily sealed by the first seaming roll 53 is pressed once again so as to be completely sealed, thereby completing the sealing operation.

As such, those skilled in the art to which the present invention pertains will understand that various modifications and variations are possible from the description of this specification. Therefore, the scope of the present invention should not be limited to the described embodiments and should be defined by the claims described below as well as the claims and equivalents.

100: container sealing device 32: cam
42: chuck 53, 63: seaming roll
200: vessel 300: vessel lift device
310: base 315: elevating block
320: spring 330: washer
340: snap ring 350: height adjustment member
360: container pedestal

Claims (5)

A container lifting device provided in a container sealing device, comprising:
a base portion 310 having a concave portion 316 in the center and a lifting block 315 moving up and down therein;
a spring 320 seated in the recess 316 of the elevating block 315;
a container pedestal 360 including a main body 361 supporting a container to be sealed and a protrusion 363 rotatably coupled to the body 361 and protruding downward from the lower portion of the body 361; and
A height adjustment member 350 comprising a body portion 351 having a concave groove 352 formed thereon and a protrusion 353 protruding downwardly from the body portion 351; includes;
According to the size of the container, the protrusion 353 of the height adjusting member 350 is inserted into the spring, and the protrusion 363 of the container pedestal 360 is inserted into the recess 352 of the height adjusting member 350 . By elastically and detachably coupling the container pedestal 360 and the height adjustment member 350 to the elevating block 315, or by inserting the protrusion 363 of the container pedestal 360 into the spring, the container pedestal Container lifting device, characterized in that configured to be elastically and detachably coupled to the lifting block (315) (360). The method of claim 1,
The pedestal 360 includes a main body 361 for supporting the container and a protrusion 363 that is disposed under the main body and can be inserted into the elevating block, wherein the protrusion is rotatably coupled to the main body. vessel lift device. The method of claim 1,
a guide groove 313 inclined with respect to the vertical direction on the side surface of the base part; and
The container lifting device further comprising a; a handle (319) coupled to the outer surface of the lifting block through the guide groove (313). 4. The method of claim 3,
The container lifting device, characterized in that as the handle (319) moves along the guide groove (313), the lifting block and the pedestal coupled thereto are configured to move in the vertical direction. A container sealing device for sealing a lid on an upper portion of a can-shaped container, comprising:
A vessel lifting device according to any one of claims 1 to 4;
a chuck disposed vertically above the container lifting device and capable of supporting an upper portion of the container;
a first seaming roll connected to the first vertical axis to be movable about a first vertical axis disposed adjacent to the left side of the chuck;
a second seaming roll connected to the second vertical axis to be movable about a second vertical axis disposed adjacent to the right side of the chuck; and
a cam rotating about a first rotational axis disposed between the first vertical axis and the second vertical axis; and
and the first seaming roll and the second seaming roll are configured to seal the container by pressing while alternately contacting the upper outer peripheral surface of the container by rotation of the cam.

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