KR200473580Y1 - Silicon Insertion Tube Bar sorting device - Google Patents

Abstract

The present invention relates to a tube aligning apparatus having a tube conveying drum, in particular, a tubular cosmetic container, which is one of cosmetic containers, is fed into a hopper, The present invention relates to a tube alignment apparatus having a tube delivery drum,
A hopper device (10) for forming a storage space for storing a plurality of tube containers (20) and aligning them horizontally one by one and transferring them to another process; A tubular container (20) for sequentially flowing along the inclined bottom surface (11) of the hopper device (10) while being housed in a plurality of the hopper devices (10) horizontally; And a tube feeding drum 30 installed at one inner end of the hopper device 10 and contacting the surface of the tube vessel 20 to guide the tube vessel 20 to be conveyed while maintaining a horizontal state; And the tube conveying drum is further provided with a tightening means for guiding the tube container to be aligned while closely adhering to the surface of the tube container.

Description

Technical Field [0001] The present invention relates to a tube sorting apparatus having a tube delivery drum,

The present invention relates to a tube aligning apparatus having a tube conveying drum, and more particularly, to a tube aligning apparatus having a tube conveying drum, and in particular, a tubular cosmetic container, To a tube alignment apparatus having a tube delivery drum.

In general, tube containers filled with contents such as cosmetics or toothpaste are made to be easily squeezed by a soft synthetic resin material. This tube container is a portion where the lid is fastened, and the contents are not filled, Because it is common, the lid is fastened to one end of the tube vessel before filling the contents. That is, before the contents are filled in the tube container, the operator forms a structure for separating and coupling with the lid at one end of the tube container raw material, which is formed in a cylindrical shape, and fastens the lid.

In order to fill the contents such as cosmetics or toothpaste, the tube container is supplied with the lid on one side and the open side on the other side, which may be done manually, but in order to automate the packaging process, Tube container feeding device.

FIG. 1 shows a part of a conventional tube container feeding apparatus. Tube containers 112 for filling contents such as cosmetics, toothpaste and the like are filled in the hopper 111 such that a lid or an open part thereof faces in a certain direction. The tube containers 112 are sequentially loaded into the widthwise controlled passage 114 in accordance with the diameter of the tube container 112 by taking the bottom surface 113 of the inclined hopper 111.

The weight of the tube container 112 is not large and the inclination of the bottom surface 113 of the hopper 111 is gentle and the load of the tube containers 112 located above the hopper 111 is lower than that of the tube container 112 located below the hopper 111. [ The tube vessel 112 is not moved to the subsequent process through the moving passage 114 while the inlet side of the moving passage 114 is blocked by the disorderly stacked tube containers 112. [

A moving plate 115 having a plurality of protrusions is positioned on the top surface of the bottom surface 113 of the hopper 111. The moving plate 115 is moved along the moving direction of the tube container 112 by a power source And serves to assist the movement of the tube containers 112 located below the hopper 111 so as to sequentially pass through the passage 114 while reciprocally moving forward and backward.

The tube container 112 conveyed to the end of the moving passage 114 by the inclination of the bottom surface 113 and the moving plate 115 or the like is successively carried over to the elevating conveyor by the unillustrated rotating type loader .

In addition, the tube container 112 is put in a state of being erected by a separate direction changing device, that is, a closed part of the lid is turned down so that the contents can be filled, The contents are transferred to the input process.

However, in the conventional tube container feeding device as described above, the tube containers positioned below the hopper can be moved to the moving path by using the moving plate, and the case where the tube container does not enter the moving path can be partially reduced, There is a limitation that there is no.

That is, when the tube container located on the bottom surface of the hopper is moved to the moving path by using the moving plate, the tube containers are randomly stacked, so that the frictional force between the tube container and the moving plate causes friction between the tube container and the disordered tube container The tube container does not move to the moving path but only the moving plate reciprocates.

Accordingly, the tube containers are not sequentially supplied to the process for injecting the contents such as cosmetics or toothpaste through the transfer passage, and the tubes are not charged during the injection of the contents into the tube containers, There is a problem that occurs. The operator must also stop the equipment from time to time to clean the contaminated equipment or to normalize the supply of the tube containers.

In order to solve the above-mentioned problems, the present invention has a tube conveying drum, in which a plurality of silicon bars are provided on the outer circumference of the tube conveying drum, So that they can be put into a lift while maintaining a horizontal state without being staggered in a zigzag manner.

As means for achieving the above object,

The present invention relates to a hopper device (10) for forming a storage space for accommodating a plurality of tube containers (20), aligning them horizontally one by one and transferring them to another process; A tubular container (20) for sequentially flowing along the inclined bottom surface (11) of the hopper device (10) while being housed in a plurality of the hopper devices (10) horizontally; And a tube feeding drum 30 installed at one inner end of the hopper device 10 and contacting the surface of the tube vessel 20 to guide the tube vessel 20 to be conveyed while maintaining a horizontal state; And the tube conveying drum is further provided with a tightening means for guiding the tube container to be aligned while closely adhering to the surface of the tube container.

The tube conveying drum is formed in a cylindrical shape and has a plurality of insertion grooves 30a, and is characterized in that a silicon bar 31 is fitted to the insertion groove 30a as a means of tightening.

The tube conveying drum is characterized in that a nonwoven fabric 31a is attached to the outer circumferential edge of the drum as a contact means.

As described above, the present invention has a tube conveying drum, in which a plurality of silicon bars are provided on the outer circumferential edge of the tube conveying drum, and the tube container is staggered in a zigzag manner So that it can be put into the lift while maintaining the horizontal state.

FIG. 1 is a block diagram of a conventional hopper device. FIG.
2 is a block diagram of a tube alignment apparatus according to the present invention;
Fig. 3 is a first embodiment of a tube delivery drum applied to the present invention. Fig.
Figure 4 is a second embodiment of a tube delivery drum as applied to the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following description are provided for illustrative purposes only and are not intended to limit the scope of the present invention.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. It is to be understood that the following terms are defined in consideration of functions in the present invention, and may vary depending on the user, the intention or custom of the operator, and the like. Therefore, the definition should be based on the contents of this whole design.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention and are incorporated in and constitute a part of this specification. The configuration is omitted as much as possible and the functional configuration that should be additionally provided for the present invention is mainly described.

Those skilled in the art will readily understand the functions of components that have been used in the prior art among the functional configurations not shown in the following description, The relationship between the elements and the added components for the present invention will also be clearly understood.

In order to efficiently explain the essential technical features of the present invention, the following embodiments will appropriately modify the terms so that those skilled in the art can clearly understand the present invention. However, It is by no means limited.

As a result, the technical idea of the present invention is determined by the claims, and the following examples are intended to illustrate the technical idea of the present inventive concept in a more effective manner to those skilled in the art, .

2 is a block diagram of a tube alignment apparatus according to the present invention;

Fig. 3 is a first embodiment of a tube delivery drum applied to the present invention. Fig.

Fig. 4 is a second embodiment of the tube delivery drum applied to the present invention,

The components of the present invention largely consist of a hopper apparatus 10, a tube vessel 20, a tube feed drum 30, and a lift apparatus 40.

The hopper device 10 includes a storage space for accommodating the plurality of tube containers 20 and a lift for aligning the containers in the horizontal direction and transferring them to another process.

The tube containers 20 are cylindrically shaped and are configured to sequentially flow along the inclined bottom surface 11 of the hopper device 10 while being housed in a plurality of the hopper devices 10 in a horizontal direction.

The tube conveying drum 30 is installed at one inner side of the hopper device 10 and contacts the surface of the tube container 20 to guide the tube container 20 to be conveyed while maintaining the horizontal state. Particularly, the tube conveying drum 30 of the present invention is formed in a cylindrical shape, and a silicon bar 31 is provided on the outer peripheral edge of the tube conveying drum 30.

The silicon bar 31 may be simply attached to the outside of the tube conveying drum 30 or may be formed by horizontally forming a plurality of insertion grooves 30a in the tube conveying drum 30, And the silicon bar 31 may be inserted into and coupled to the silicon bar 31.

In addition, the nonwoven fabric 31a may be attached to the outer peripheral edge of the tube conveying drum 30 to perform a close contact function with the tube container.

The lifting device 40 is installed at one side of the hopper device 10 and serves to transport the horizontally transported tube container 20, which has passed through the hopper device 10, to another process.

Hereinafter, an assembling method of the present invention will be described.

The present invention has a hopper device 10 having a bottom surface inclined and a tube conveying drum 30 is installed at one end of the inside of the hopper device 10 so as to be attached to the outside of the tube conveying drum 30 And further comprises a silicon bar (31).

The hopper device 10 has a sloping bottom surface 11 and a storage space for storing a plurality of tube containers 20. The tube feed drum 30 is installed at the lower end of the bottom surface do.

At this time, the tube conveying drum 30 rotates and horizontally arranges the tube containers 20, thereby causing the tube containers 20 to escape outward one by one.

That is, in the present invention, a silicon bar 31 is attached to the outside of the tube conveying drum 30 as a tube container contact means, and the tube conveying drum 30 rotates inside the hopper apparatus 10, The container 20 is allowed to escape outward in a state in which it is aligned in a horizontal direction without staggering in the zigzag direction.

A lift device 40 is installed on the outside of the hopper device 10 and the lift device 40 is mounted to transport the tube containers 20 one by one to the next process for supplying the cosmetic liquid, do.

Hereinafter, the overall operation of the present invention will be described.

In the present invention, the present invention has a hopper device 10 having a bottom surface inclined, and a tube conveying drum 30 is installed on one side of the hopper device 10. In the hopper device 10, The tube container 20 is housed.

When the tube containers placed on the bottom surface of the tube container 20 are fed one by one for another operation, the tube containers 20 are continuously supplied at regular intervals to continuously supply the tube containers.

The tube container 20 is transported one by one from the bottom surface 11 of the hopper device 10 to the lift device 40 and the tube container 20 moved to the lift device 40 is transported to the other It is transported to the workplace.

At this time, in the present invention, the tube conveying drum 30 is installed at the lower end of the bottom surface of the hopper device 10, and the silicon bar 31, which is the tube-tube tightening means, is additionally provided on the outer side of the tube conveying drum 30 The silicon bar 31 is rotated while touching the body of the tube container 20 and the tube container 20 is vertically aligned and then escapes to the lower portion of the tube transfer drum 30. [

That is, the tube conveying drum 30 of the present invention rotates upward while the silicon bar 31 is closely attached to the tube vessel 20. At this time, the tube vessel 20 is connected to the silicon bar 31 of the tube conveying drum 30 The body passes through the lower part of the horizontally oriented sieve tube feeding drum 30 while being exerted on the entire body.

If the tube conveying drum 30 as in the present invention is absent, horizontal alignment of the container tube is not easy, so that it can be conveyed outwardly in a staggered state, so that it can be easily mounted on the lifting device 40 The entire hopper device 10 is stopped while an error occurs.

The tube conveyor drum 30 with the silicone bar 31 mounted thereon as a means of tightening on the outside keeps the tube vessel 20 horizontally rotating while the tube vessel 20 is held by the tube conveying drum 30, The tube vessel 20 is rotated in a state that it is in contact with the silicon bar 31 which is a contact means provided on the outer side of the tube transfer drum 30, And can be mounted on the lift apparatus 40 while being held.

As a result, when the present invention is used, the tube conveying drum 30 to which the silicon bar 31 is attached is brought into close contact with the tube container 20 as a tightening means, The tube 20 is always held in the horizontal direction because the tube 20 passes through the lower end of the tube feed drum 30 while being held in the horizontal state by the action of the silicon bar 31 which is the contact means, It is possible to remove an error factor in advance.

10: hopper device
20: Tube container
30: Tube feed drum
31: Silicon bar
31a: Nonwoven fabric
40: Lift device

Claims (3)

A hopper device (10) for forming a storage space for storing a plurality of tube containers (20) and aligning them horizontally one by one and transferring them to another process;
A tubular container (20) for sequentially flowing along the inclined bottom surface (11) of the hopper device (10) while being housed in a plurality of the hopper devices (10) horizontally;
And a tube feeding drum 30 installed at one inner end of the hopper device 10 and contacting the surface of the tube vessel 20 to guide the tube vessel 20 to be conveyed while maintaining a horizontal state;
The tube conveying drum 30 is further provided with a tightening means for guiding the tube containers to be aligned while closely adhering to the surface of the tube containers,
The tube conveying drum 30 has a cylindrical shape and is formed with a plurality of insertion grooves 30a and a silicone bar 31 fitted in the insertion groove 30a,
The tube conveying drum 30 closely contacts the tube container 20 inside the hopper device 10 so as to escape outward in a state in which the tube containers 20 are aligned in a horizontal direction without staggering in the zigzag direction, To rotate,
Wherein the silicon bar (31) rotates while touching the body of the tube vessel (20), and the tube vessel (20) is vertically aligned and escapes to the lower side of the tube transfer drum (30) Tube alignment apparatus with transfer drum. A hopper device (10) for forming a storage space for storing a plurality of tube containers (20) and aligning them horizontally one by one and transferring them to another process;
A tubular container (20) for sequentially flowing along the inclined bottom surface (11) of the hopper device (10) while being housed in a plurality of the hopper devices (10) horizontally;
And a tube feeding drum 30 installed at one inner end of the hopper device 10 for contacting the surface of the tube vessel 20 and guiding the tube vessel 20 to be conveyed while keeping the tube vessel 20 in a horizontal state;
The tube conveying drum 30 is further provided with a tightening means for guiding the tube containers to be aligned while closely adhering to the surface of the tube containers,
The tube conveying drum 30 is constructed by attaching a nonwoven fabric 31a to the outer periphery of the tube conveying drum 30,
The tube conveying drum 30 closely contacts the tube container 20 inside the hopper device 10 so as to escape outward in a state in which the tube containers 20 are aligned in a horizontal direction without staggering in the zigzag direction, To rotate,
The nonwoven fabric 31a rotates while touching the body of the tube container 20, and the tube container 20 is discharged to the lower side of the tube transfer drum 30 while being aligned in the horizontal direction. A tube alignment apparatus having a drum. 3. The method according to claim 1 or 2,
Further comprising a lift device (40) installed at one side of the hopper device (10) for transporting the horizontally transported tube container (20) exiting the hopper device (10) to another process. / RTI >

Images