KR101389991B1 - Automatic Injection Apparatus For Compartmentalized Beverage Container - Google Patents

Abstract

An automatic beverage dispensing apparatus is disclosed. A beverage automatic injecting apparatus according to the present invention includes a first sidewall portion which is divided into a first body portion in which a first beverage is received and a second body portion in which a second beverage is received and which are symmetrical to each other with respect to a transverse center line, And a beverage container in which a neck portion communicating with the first body portion and the upper end of the second body portion is formed is used to fill the beverage container and the beverage container in a direction parallel to the center line, An injection feed; A first injection corresponding groove corresponding to an end surface of the first sidewall of the beverage container is formed and an injection separation part separating the beverage container at a predetermined interval at an end of the injection supply part; A first injection rotation part formed with a second injection corresponding groove corresponding to the second sidewall part of the beverage container and moving the beverage container separated by the injection separation part along the first injection circumference; A first seating part seated on the beverage container rotated by the first injection rotating part and rotating along a second injection circumference of the first injection circumference; A first injection nozzle part which rotates together with the first seating part and injects the first beverage through the first injection nozzle facing the inside of the first body part; A second injection corresponding groove corresponding to the end surface of the second side wall portion of the beverage container is formed, and the second injection moves the beverage container rotated by the first seating part along the third injection cylinder circumscribed with the second injection cylinder. reel; A second seating part seated by the second injection rotation part and rotated along a fourth injection circumference of the third injection circumference; And a second injection nozzle part which rotates together with the second seating part and injects a second beverage through a second injection nozzle directed toward the inside of the second body part. According to the present invention, when a first beverage and a second beverage are injected into a beverage container divided into a first body portion and a second body portion and capable of storing two different beverage drinks, a large amount of beverage containers can be continuously moved The injection can be made with the first injection nozzle and the second injection nozzle respectively facing correctly into the first body and the second body.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a beverage dispensing apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic beverage dispensing apparatus, and more particularly, to an automatic beverage dispensing apparatus capable of automatically injecting each beverage into a divided beverage container to store two different beverages.

Disclosed is a technique for moving a plurality of beverage containers using an automated facility for filling a beverage with a beverage in the beverage container.

Korean Patent No. 10-0876585 discloses a " beverage automatic injecting apparatus ", which automatically injects a beverage such as bottled water into a beverage container, comprising: a main shaft; A driving unit connected to the main shaft for rotationally driving the main shaft; A base plate to which the main shaft is fixed; A cam portion provided on an upper portion of the housing along an outer peripheral surface of a cylindrical housing surrounding the main shaft; A beverage storage portion provided at an upper portion of the main shaft for storing the beverage supplied from the beverage storage tank; An injection nozzle unit installed on a bottom surface of the storage unit to inject the beverage stored in the storage unit into the beverage container; And a container holder portion provided at a lower portion of the beverage storage portion and movable along the cam portion. The beverage is injected by the natural pressure method by bringing the injection nozzle into close contact with the beverage container, So that the beverage supply pipe supplied from the storage tank is not disturbed by rotation.

However, the automatic injection device disclosed in Korean Patent No. 10-0876585 can be used only for the injection of a beverage container provided with a single storage space for storing only a single beverage, It can not be used to inject beverage containers that are partitioned inside.

Specifically, the beverage container in which the inside is partitioned can not inject two spaces by one injection nozzle due to the dividing boundary, and even if two nozzles are simply provided in the conventional injection device, In the case where the position is not taken into account, the individual drinks can not be accurately injected into the two internal spaces. Therefore, the automatic injection apparatus disclosed in Korean Patent No. 10-0876585 can be applied to a device which can not be used other than a single beverage container .

It is an object of the present invention to provide an automatic apparatus suitable for pouring each beverage into a beverage container which is partitioned into two spaces, and the position of each containing space of the beverage in the beverage container and the direction of movement of the beverage container, So that each beverage can be accurately sprayed into each containing space.

The above object is achieved by a method of manufacturing a beverage dispenser, comprising the steps of: dividing a first body part accommodating a first beverage and a second body part accommodating a second beverage into a first side wall part and a second side wall part symmetrical to each other with reference to a transverse center line; Wherein the beverage container is used to fill the first beverage and the second beverage in a beverage container in which a neck portion communicating with the first body portion and the upper end of the second body portion is respectively formed and the beverage container is continuously conveyed in a direction parallel to the centerline, A supply section; A first injection corresponding groove corresponding to an end surface of the first sidewall of the beverage container is formed and an injection separation part separating the beverage container at a predetermined interval at an end of the injection supply part; A first injection rotary part formed with a second injection corresponding groove corresponding to an end surface of the second sidewall part of the beverage container and moving the beverage container separated by the injection separation part along a first injection circumference; A first seating part on which the beverage container rotated by the first injection rotation part is seated and rotates along a second injection circumference which is in contact with the first injection circumference; A first injection nozzle part rotating together with the first seat part and injecting the first beverage through a first injection nozzle directed to the inside of the first body part; A third injection corresponding groove corresponding to an end surface of the second sidewall of the beverage container is formed and the beverage container rotated by the first seat portion is moved along a third injection circumference which is in contact with the second injection circumference A second injection rotary part for moving the second injection rotary part; A second seating part on which the beverage container rotated by the second injection rotation part is seated and rotates along a fourth injection circumference contiguous with the third injection circumference; It is achieved by the automatic beverage injection device comprising a second injection nozzle portion which rotates together with the second seating portion, and injects the second beverage through a second injection nozzle directed toward the inside of the second body portion. .

Wherein a vertical distance between the first sidewall portion and the second sidewall portion is the shortest among the transversal diameters of the beverage container, a guide wall for guiding the beverage container is formed in the injection supply portion, And is shorter than a maximum distance between the first sidewall portion and the second sidewall portion.

The first body part and the second body part are symmetrical to each other.

Wherein the injection separation part is formed with an injection rotation screw in which a rotation axis is parallel to a transfer direction of the beverage container, the injection rotation groove is formed in the injection rotation screw along a screw direction, The depth is increased and the interval is widened toward the first injection rotation part side.

Wherein the first injection rotary part comprises: a first injection rotary turret having a diameter corresponding to the first injection circumference and rotated at an end portion thereof; And a first injection rotation guide spaced apart from the first injection rotation turret and guiding the injection space between the injection separation part and the first placement part via the beverage container between the first injection rotation turret and the first injection rotation turret.

Wherein the second injection rotation part includes: a second injection rotation turret having a diameter corresponding to the third injection circumference and rotated at an end portion of the third injection rotation groove; And a second injection rotation guide spaced from the second injection rotation turret and guiding the first bead to the second mount through the beverage container between the second injection rotation turret and the second injection rotation turret.

The first sidewall portion is formed on one side wall of the first body portion, the second sidewall portion is formed on one side wall of the second body portion, and a boundary between the first body portion and the second body portion is formed on the first sidewall portion and the second sidewall portion. And is parallel to the second side wall portion.

Wherein the first seat portion is formed with a first injection grip portion provided with a first seat corresponding groove corresponding to an end surface of the beverage container at the side of the first side wall portion, And a second injection grip portion having a second seat corresponding groove corresponding to one end surface of the side wall portion is formed.

Spaced apart from the first seating corresponding groove by a distance corresponding to a vertical distance of the first side wall portion and the second side wall portion, and formed on the concentric circle with the second injection circumference, the first injection circumference and the second injection circumference A first guide plate formed from a point of contact; And a second side wall corresponding to a distance corresponding to a vertical distance between the first sidewall portion and the second sidewall portion, the third sidewall portion being formed concentrically with the fourth syringe circumference, And a second guide plate formed from a point of contact with the outside.

A first elevating portion for pushing up or lowering the first seating portion on which the beverage container is placed is formed on the lower side of the first seating portion, and the first injection nozzle is provided in a state where the beverage container is raised by the first elevating portion And a second lift part for pushing up or lowering the second seating part on which the beverage container is mounted is formed at a lower side of the second seating part, And is opened when it is lifted by the second lifting part and closed when it is lifted.

A fourth injection corresponding groove corresponding to an end surface of the second sidewall of the beverage container is formed and the beverage container rotated by the second seat portion is moved along a fifth injection circumference which is in contact with the fourth injection circumference And a third injection rotation part for moving the first injection rotation part.

According to the present invention, the first injection-response groove is provided in the injection separation zone in the first beverage and the second beverage injecting the first beverage and the second beverage into the beverage container which can be divided into two different beverages can be stored; The second and third injection corresponding grooves are formed in the first injection rotation part and the second injection rotation part, respectively, so that the beverage container continuously delivered is always seated in the first seat and the second seat in the same direction and position. The first injection nozzle and the second injection nozzle are respectively placed in the first injection nozzle part and the second injection nozzle part, so that a large amount of the beverage container can be continuously moved. It can be sprayed precisely toward the inside.

1 is a view showing a beverage container according to an embodiment of the present invention;
2 is a plan view showing an automatic beverage dispensing apparatus according to an embodiment of the present invention,
Fig. 3 is a front view showing the automatic beverage dispensing apparatus shown in Fig. 2,
Fig. 4 is a plan view showing a part of the automatic beverage dispensing apparatus shown in Fig. 2,
5 (a) and 5 (b) are side views showing the operating state of the first injection nozzle unit shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

Fig. 1 is a view showing a beverage container 10 according to an embodiment of the present invention. Fig. 1 (a) is a perspective view, Fig. 1 (b) is a front view and Fig. 1 (c) is a plan view.

An automatic beverage dispensing apparatus 200 according to an embodiment of the present invention is directed to an apparatus for injecting a first beverage and a second beverage into a beverage container 10 in which two different beverages are contained therein The beverage container 10 used in the present invention will be described first.

The beverage container 10 used in the beverage automatic injecting apparatus 200 according to the present invention is provided with body portions 11 and 12 for accommodating beverages and neck portions 15 and 12 formed at the upper ends of the body portions 11 and 12 Is formed.

The body portions 11 and 12 are divided into a first body portion 11 in which the first beverage is received and a second body portion 12 in which the second beverage is received, ). The boundary 16 separating the first and second body parts 11 and 12 may be formed only on the sides of the body parts 11 and 12 and the neck part 15, As shown in FIG. The first body part 11 and the second body part 12 may be formed symmetrically with respect to each other.

The neck portion 15 is formed at the upper end of the body portions 11 and 12 and is a portion to which a stopper (not shown) for blocking the body portions 11 and 12 is engaged. . As shown in FIG. 1, the neck portion 15 may have a reduced diameter than the body portions 11 and 12, but the present invention is not limited thereto.

The beverage container 10 used in the beverage automatic injecting apparatus 200 according to the present invention has a first side wall portion 13 and a second side wall portion 14 which are symmetrical to each other on the outside. The first sidewall portion 13 and the second sidewall portion 14 are formed symmetrically with respect to each other with respect to the center line CL passing through the center on the transverse plane of the beverage container 10. The first side wall portion 13 and the second side wall portion 14 are preferably formed to be planar as shown in FIG. 1, but in a different curved surface, Or may be formed in a shape slightly recessed inward), or may be formed in a pattern in which repeated patterns are formed. The side surfaces of the beverage container 10 excluding the first side wall portion 13 and the second side wall portion 14 may be curved surfaces as shown in FIG. 1, .

 That is, the beverage container 10 used in the beverage automatic injecting apparatus 200 according to the present invention is not formed in a completely circular cross-sectional shape, and the first side wall portion 13 and the second side wall portion 14 ) Are symmetrical to each other. The first sidewall portion 13 and the second sidewall portion 14 are engaged with the specific configuration of the automatic beverage dispensing apparatus 200 according to the present invention so that the beverage container 10 is always constant on the automatic beverage dispensing apparatus 200 Look at the direction.

The vertical distance L1 between the first side wall portion 13 and the second side wall portion 14 of the beverage container 10 is the longest distance among the vertical distances when the beverage container 10 is not perfectly flat, L2).

The first sidewall part 13 and the second sidewall part 14 are formed symmetrically with respect to the center line CL. The first sidewall part 13 is formed on the first body part 11 side, And the portion 14 may be formed on the second body portion 12 side. This form is shown in Fig. At this time, the center line CL and the boundary 16 coincide with each other. It goes without saying that the second side wall portion 14 may be formed on the side of the first body portion 11 and the first side wall portion 13 may be formed on the side of the second body portion 12. And the second body portion 12 are formed only by the first beverage and the second beverage that are accommodated therein, and may be formed in the same shape.

Alternatively, the beverage container 10 used in the beverage automatic injecting apparatus 200 according to the present invention may be configured such that the boundary 16 between the first and second body portions 11 and 12 is formed as shown in FIG. 1 (c) But may be formed in a transverse direction rather than a longitudinal direction. That is, a part of the first side wall part 13 may be formed on one side of the first body part 11 and a part of the second side wall part 14 may be formed on the opposite side of the first body part 11 . At this time, the second body part 12 is formed symmetrically with the first body part 11, and the center line CL and the boundary 16 are perpendicular to each other. In this case, the first injection nozzle 255 and the second injection nozzle 285, which will be described later, are arranged in the circumferential direction of the second cleaning circumference S2 instead of being arranged in the circumferential direction of the second cleaning circumference S2. .

As described above, in the beverage container 10 used in the beverage automatic injecting apparatus 200 according to the present invention, the first body part 11 and the second body part 12 partitioned inside are formed, And the second sidewall part 14 and the second sidewall part 14, which are symmetrical to each other with respect to the center line CL, may be formed on the outer side of the first sidewall part 13 and the second sidewall part 14, respectively.

2 is a plan view showing the automatic drink injection device 200 according to an embodiment of the present invention, Figure 3 is a front view showing the automatic drink injection device 200 shown in FIG. To show the left and right distances between the components for the purpose of). 4 is a plan view illustrating a part of the automatic beverage dispensing apparatus 200 shown in FIG. 2, and FIGS. 5 (a) and 5 (b) Fig.

The beverage automatic injecting apparatus 200 according to the present invention constitutes an automatic equipment for continuously producing a beverage product in which two different beverages (first beverage and second beverage) are stored, Wherein a plurality of beverage containers (10) are continuously supplied to the beverage automatic injecting apparatus (200), and the first beverage and the second beverage are supplied to the first and second bodies (11, 12) And then discharged. The automatic beverage injection device 200 is largely, the injection supply unit 210, the injection separation unit 220, the first injection rotation unit 230, the first seating unit 240, the first injection nozzle unit 250, And a second injection rotating part 260, a second seating part 270, and a second injection nozzle part 280. Further, it may further include a third injection rotation unit 290.

The injection supply unit 210 is a means for supplying the beverage container 10 to the beverage automatic injecting apparatus 200 and has means for moving the beverage container 10. For this, the injection supply part 210 is moved by the motor for generating the rotational power, the gear for transmitting the power of the motor, the pulley for rotating in conjunction with the gear, the pulley, and the beverage container 10 toward the injection separation part 220 A transfer belt for transferring the toner image, and the like. The conveying belt constitutes a bottom surface on which the beverage container 10 is placed in the injection feeding section 210 and a guide wall 211 is formed on both sides of the conveying belt. That is, the beverage container 10 is prevented from being separated from the transfer line by the guide wall 211, and the beverage container 10 moves along the moving direction of the transfer belt.

The feeding part 210 continuously feeds the beverage container 10 so as to be parallel with the center line CL of the beverage container 10 in delivering the beverage container 10. The direction of conveyance of the beverage container 10 on the injection feeder 210 can take the form of a straight line and the conveyance direction of the beverage container 10 can be changed in a range in which the tangential direction of the conveyance moment is parallel to the center line CL Can be a curve.

The guiding wall 211 of the injection supply part 210 guides the movement of the beverage container 10 so that the gap between the guide walls 211 is equal to the distance between the first sidewall part 13 of the beverage container 10 and the second sidewall part (L1) (the longest distance among the vertical distances when the plane is not perfectly flat) between the first side wall portion 13 and the second side wall portion 14 and is shorter than the maximum distance L3 between the first side wall portion 13 and the second side wall portion 14 .

By limiting the interval between the guide walls 211 as described above, the first sidewall portion 13 and the second sidewall portion 14 are always guided by the guide wall (not shown) when the beverage container 10 is moved on the injection supply portion 210. [ 211 so that the direction of the beverage container 10 does not change and the direction of movement of the beverage container 10 coincides with the center line CL.

The injection separation unit 220 separates the supplied beverage container 10 at regular intervals and includes a screw driving unit 221, a screw driving arm 222, an injection rotation screw 223, and the like.

The screw driving unit 221 is a part that generates power for rotating the injection rotating screw 223, and may be a combination of an electric motor and a gear.

The screw driving arm 222 transmits rotational power from the screw driving unit 221 to the injection rotating screw 223 and is shaped like a link arm as shown in FIG. And the rotational axis of the injection rotating screw 223 do not coincide with each other. The screw drive arm 222 is thus configured such that the injection drive screw 223 is positioned proximate to the injection supply 210 and the screw drive 221 is spaced apart from the injection supply 210, One design can be made.

The injection rotation screw 223 rotates about the rotation axis in the direction of transport of the beverage container 10, that is, the direction parallel to the formation direction of the injection supply part 210, and the injection rotation screw 223 is provided with a first An injection corresponding groove 223a is formed. The first injection corresponding groove 223a corresponds to the sectional shape of the beverage container 10 on the side of the first sidewall part 13 and the first injection corresponding groove 223a on the end face of the injection rotating screw 223, Is formed to correspond to the shape of the first sidewall portion (13) on the transverse plane of the substrate (10).

The beverage container 10 is naturally inserted into the first injection corresponding groove 223a and the first injection corresponding groove 223a is inserted into the first injection corresponding groove 223a, (The intervals of the first injection corresponding grooves 223a) when the beverage containers 10 transported along the feed screw 210 pass the end of the injection spinning screw 223.

The first injection rotation part 230 moves the beverage container 10 spaced apart by the injection separation part 220 along the first injection circumference S1 and the first injection rotation turret 231 and the first injection rotation rotation part 231, Lt; / RTI >

The first injection circumference S1 is formed on a circle concentric with the first injection rotation turret 231 and is in contact with the center line CL of the beverage container 10 located at the end of the injection rotation screw 223 It is a line.

In the beverage automatic injecting apparatus 200 according to the preferred embodiment of the present invention, the first injection rotation turret 231 rotates with a diameter corresponding to the first injection circumference S1 and has a second injection corresponding groove 231a Is repeatedly formed. The interval of the second injection corresponding groove 231a on the first injection rotation turret 231 coincides with the interval of the first injection corresponding groove 223a on the extreme end of the injection rotation screw 223, The beverage container 10 separated from the beverage container 10 is transferred to the first injection rotation turret 231 as it is.

The second injection corresponding groove 231a corresponds to the shape of the cross section of the beverage container 10 at the side of the second side wall portion 14 side.

The first injection rotation guide 232 is formed along the periphery of the first injection rotation turret 231 and is spaced apart from the first injection rotation turret 231 and disposed between the first injection rotation turret 231 and the beverage container 10 from the injection separation part 220 to the first seat part 240. [

The distance between the inside of the second injection corresponding groove 231a of the first injection rotation turret 231 and the first injection rotation guide 232 corresponds to the distance between the first side wall portion 13 and the second side wall portion 14 So that the second sidewall part 14 faces the center of the first injection rotating turret 231 and the beverage container 10 rotates without changing the direction of the beverage container 10.

The first injection rotation turret 231 moves the beverage container 10 to a point where the first injection circumference S1 and the second injection circumference S2 are in contact with each other.

The first seat portion 240 allows the beverage container 10 rotated by the first injection rotation portion 230 to be seated and rotated along the second injection circumference S2. The rotation direction of the first seating portion 240 is opposite to the rotation direction of the first injection rotation turret 231. The first seating part 240 is repeatedly formed along the second injection circumference S2. In addition, the beverage container 10 is moved to the first seating portion 240 after being placed thereon by interlocking the first guide plate 234 to be described later.

In the present invention, the second implanting circumference S2 is a circle circumscribing the first implanting circumference S1 as a virtual circle, and the second implanting circumference S2 is a circle circumscribing the imaginary circle formed by the rotation of the first seating portion 240. [ Speak circle. The first injection nozzle unit 250 in which the first injection nozzle 255 is formed is formed above the first mount unit 240 and rotates together with the first mount unit 240. The first injection nozzle unit 250 ) Is also generally disposed on the second injection circumference S2.

The first seat portion 240 is formed with a first injection grip portion 241 having a first seat corresponding groove 241a corresponding to the end face of the beverage container 10 on the side of the first side wall portion 13. The first seat seating groove 241a is opened to the outside of the second casting circumference S2 so that the beverage container 10 introduced into the first seating seating groove 241a is inserted into the first injection gripping portion 241). The first injection grip portion 241 does not need to securely fix the beverage container 10 to the extent that the beverage container 10 is not moved at all, It is sufficient to support the beverage container 10 to such an extent that it does not leave the first seating portion 240. [

According to the present invention, the first sidewall part 13 may be formed on one side of the first body part 11 and the second side wall part 14 may be formed on one side of the second body part 12. [ Alternatively, the first sidewall part 14 may be formed on one side of the first body part 11 and the first sidewall part 13 may be formed on one side of the second body part 12. The latter case is shown in Fig.

The first seating portion 240 is provided with a first seating plate 242 on which the beverage container 10 is placed in addition to the first injection grasp portion 241 and a second seating plate 242 fixed on the bottom surface of the first seating plate 242, And a first lifting shaft 243 is provided. The first lifting shaft 243 is movably coupled to the first lifting and rotating plate and is formed to be pushed up or down by moving along the first lifting unit 203 to be described later.

The first guide plate 234 is provided to smoothly move the beverage container 10 from the first injection rotation part 230 to the first seating part 240. [ The first guide plate 234 is formed to be spaced apart from the first seating corresponding groove 241a by a distance corresponding to the vertical distance between the first side wall portion 13 and the second side wall portion 14. It is formed on the concentric circles with (S2).

As shown in FIG. 4, the first guide plate 234 is formed on the circumference having a diameter slightly larger than the second injection circumference S2, and the first guide plate 234 is the first injection circumference S1. And the second injection source circumference S2 is formed from the point where it is circumscribed.

When the beverage container 10 is rotated by the first injection rotation part 230, a point where the first injection circumference S1 and the second injection circumference S2 are in contact with each other, that is, the first injection rotation guide 232 is formed The beverage container 10 is moved along the second infusion circumference S2 by the first guide plate 234 formed from this point, And is moved along the second injection circumference S2. At this time, since the beverage container 10 is supported by the first guide plate 234 and the first injection gripper 241, the beverage container 10 is stably positioned on the first seat 240.

The first guide plate 234 need not be formed around the second injection circumference S2 like the first seating portion 240 but may be formed in a certain section. When the beverage container 10 moves from the first injection rotation part 230 to the first placement part 240, the first placement part 240 is raised by the first lift part 203 to be described later. The beverage container 10 is held between the first seating part 240 and the first injection nozzle part 250 and fixed. As described above, when the beverage container 10 is fixed by the first seating portion 240 and the first injection nozzle portion 250, the first guide plate 234 does not need to be formed any more, It is sufficient that the plate 234 is formed to the same or slightly exceed the point at which the beverage container 10 is fixed by the first seating portion 240 and the first injection nozzle portion 250. [

A first elevating portion 203 is formed below the first seating portion 240 to push up or down the first seating portion 240 on which the beverage container 10 is placed. The first lift portion 203 is formed on the first injection fixing plate 201 and is formed along the second injection circumference S2 substantially.

The first elevating part 203 extends from a position where the first injection circumference S1 and the second injection circumference S2 are in contact with each other to a predetermined section (a section where the first guide plate 234 is formed) The lifting section 203a is formed so as to push up the lifting section 240 and the lifting section 203a is maintained to be lifted up after the lifting section 203a to form the lifting section 203b, And the second infusion circumference S2 and the third infusion circumference S3 are brought into contact with each other while descending while the first infusion circumference S2 and the third infusion circumference S3 are in contact with each other. 203d.

As shown in FIG. 3, the first lifting unit 203 may have a shape such as a cam or a rail, and the height is gradually increased in the rising section 203a to push up the first seating unit 240 and ascend. The high position is maintained in the holding section 203b, the height is gradually lowered in the falling section 203c to lower the first seating portion 240, and the lower position is maintained in the falling holding section 203d.

The first injection nozzle unit 250 rotates together with the first seating unit 240 and is repeatedly formed along the second injection circumference S2 as in the first seating unit 240. The first injection nozzle unit 250 is formed in the same number as the first seating unit 240 and is formed directly on the first seating unit 240.

The first injection nozzle unit 250 is coupled to the bottom surface of the first housing 204 and includes a first cylinder 251, a first piston 252, a first spring 253, a first contact plate 254, A first injection nozzle 255 and a first communicating pipe 256.

The first housing 204 is configured to receive and store the first beverage therein. A first beverage inlet 204a through which the first beverage flows into the first housing 204 is formed at one side of the first housing 204. [ The first beverage inlet 204a is connected to a storage tank (not shown) for storing the first beverage and a pump (not shown) for pressurizing the first beverage.

A first cylinder 251 is formed below the first housing 204 and a first beverage moves within the first housing 204 into the first cylinder 251.

The first piston 252 is coupled to the lower side of the first housing 204 and is slidably coupled to the first housing 204 in the vertical direction. A first spring 253 is interposed between the first piston 252 and the first housing 204 and the first spring 253 presses the first piston 252 downwardly of the first housing 204.

A first injection nozzle 255 extends integrally below the first piston 252.

The first contact plate 254 is formed below the first piston 252 and the first injection nozzle 255 is inserted into the beverage container 10 through the first contact plate 254 Both are combined. The first tightening plate 254 is preferably made of a material such as rubber which is elastically deformable as a portion to which the neck portion 15 of the beverage container 10 is closely adhered, When the neck portion 15 is brought into close contact with the first contact plate 254 by the lifting portion 203 and the first seating portion 240 and the first and second body portions 11 and 12 .

The first communicating pipe 256 is formed along the inside of the first housing 204, the first cylinder 251, the first piston 252 and the first injection nozzle 255 and is connected to the neck portion of the beverage container 10 15 are in close contact with the first contact plate 254, the first housing 204 and the beverage container 10 communicate with each other. The end of the first communicating pipe 256 is formed in the shape of an expanded flange and contacts the lower portion of the first injection nozzle 255 to seal the inside of the first piston 252. The lower part of the first injection nozzle 255 and the first communicating pipe 256 is inserted toward the inside of the first body 11 of the beverage container 10 and the first beverage .

When the first piston 252 and the first contact plate 254 are pressed and raised by the beverage container 10, the first injection nozzle 255 is opened as shown in FIG. 5 (b) One beverage is introduced into the first body part 11.

When the first beverage is filled into the first body part 11 (when the first beverage is filled up to the end of the lower part of the first communicating tube 256), the inside of the first communicating tube 256 and the inside of the first housing 204, the injection of the first beverage is stopped.

When the beverage container 10 is rotated by the first seating part 240 after the first beverage is injected into the first body part 11, the falling section 203c of the first lift part 203, The beverage container 10 must move along the second injection circumference S2 even when the beverage container 10 is not fixed between the first seating portion 240 and the first injection nozzle portion 250, The beverage container 10 is still moved along the second injection circumference S2 by the first auxiliary guide plate 244 formed from the position of the first supplement guide plate 244. Since the beverage container 10 is supported by the first auxiliary guide plate 244 and the first injection gripper 241, the beverage container 10 is stably positioned on the first seat 240.

The first auxiliary guide plate 244 is formed similarly to the first guide plate 234 and does not need to be formed all around the second injection circumference S2 but may be formed in a certain section. When the beverage container 10 moves from the first seating part 240 to the second injection rotation part 260, the second injection rotation turret 261 and the second injection rotation guide 262 of the second injection rotation part 260, As shown in FIG. Therefore, the first auxiliary guide plate 244 should be formed only up to the point where the beverage container 10 is in contact with the second injection circumference S2 and the third injection circumference S3.

The second injection rotation unit 260 moves the beverage container 10 rotated by the first seating unit 240 along the third injection circumference S3 and moves the second injection rotation turret 261 and the second injection rotation And a guide 262.

The third injection circumference S3 is formed on a circle concentric with the second injection rotation turret 261 and circumscribes the second injection circumference S2.

In the beverage automatic injecting apparatus 200 according to the preferred embodiment of the present invention, the second injection rotation turret 261 rotates with a diameter corresponding to the third injection circumference S3 and has a third injection corresponding groove 261a Is repeatedly formed. The intervals of the third injection corresponding grooves 261a on the second injection rotation turret 261 coincide with the intervals of the first seat corresponding grooves 241a in the first seat portion 240, So that the beverage container 10 rotated is transferred to the second injection rotary turret 261 as it is.

The third injection corresponding groove 261a corresponds to the shape of the cross section of the beverage container 10 at the side of the second side wall portion 14 side.

The second injection rotation guide 262 is formed along the periphery of the second injection rotation turret 261 and is spaced apart from the second injection rotation turret 261 and between the second injection rotation turret 261 and the beverage container 10 so that the beverage container 10 moved along the first seating portion 240 moves along the third injection circumference S3 instead of the second injection circumference S2 and the first seating portion 240 to the second seat portion 270. [0035]

The distance between the inside of the third injection corresponding groove 261a of the second injection rotation turret 261 and the second injection rotation guide 262 corresponds to the distance between the first side wall portion 13 and the second side wall portion 14 So that the second sidewall part 14 is oriented toward the center of the second injection rotating turret 261 and rotates without changing the direction of the beverage container 10.

The second injection rotation turret 261 moves the beverage container 10 to the point where the third injection circumference S3 and the fourth injection circumference S4 are in contact with each other.

The second seating part 270 allows the beverage container 10 rotated by the second injection rotating part 260 to be seated and rotated along the fourth injection cylinder S4. The rotation direction of the second seat portion 270 is opposite to the rotation direction of the second injection rotation turret 261. The second seat portion 270 is repeatedly formed along the fourth injection circumference S4. In addition, the beverage container 10 is moved to the second seating portion 270 after being placed thereon by interlocking the second guide plate 264 to be described later.

In the present invention, the fourth injection circumference S4 refers to a circle circumscribing the third injection circumference S3 as a virtual circle, and the fourth injection circumference S4 refers to a circle circumscribing the imaginary circle formed by the rotation of the second seating portion 270. [ Speak circle. The second injection nozzle portion 280 in which the second injection nozzle 285 is formed is formed above the second mount portion 270 and rotates together with the second mount portion 270, The portion 280 is also generally disposed on the fourth injection circumference S4.

The second seat portion 270 is formed with a second injection grip portion 271 having a second seat corresponding groove 271a corresponding to the end surface of the beverage container 10 on the side of the first side wall portion 13. The second seat seating groove 271a is opened to the outside of the fourth casting circumference S4 so that the beverage container 10 flowing into the second seat seating groove 271a is inserted into the second injection grip 271).

The second seating portion 270 is provided with a second seating plate 272 on which the beverage container 10 is placed and a second seating plate 272 fixed on the bottom surface of the second seating plate 272, And a second lifting shaft 273 is provided. The second lifting shaft 273 is movably coupled to the second lifting and rotating plate 205 and moves along the second lifting unit 207 so as to be pushed up or down.

The second seat portion 270 has the same structure as that of the first seat portion 240. A further description of the second seat portion 270 is omitted in the description of the first seat portion 240. [

The second guide plate 264 is provided to smoothly move the beverage container 10 from the second injection rotary part 260 to the second seat part 270. The second guide plate 264 is spaced apart from the second seat corresponding groove 271a by a distance corresponding to the vertical distance between the first side wall portion 13 and the second side wall portion 14, (S4).

As shown in FIG. 4, the second guide plate 264 is formed on the circumference having a diameter slightly larger than the fourth injection circumference S4, and the second guide plate 264 is the third injection circumference S3. And the fourth injection source circumference S4 is formed from the circumscribed point.

The second guide plate 264 has the same structure as that of the first guide plate 234 and a further description of the second guide plate 264 is replaced with a description of the first guide plate 234.

A second lifting portion 207 is formed below the second seating portion 270 to push up or down the second seating portion 270 on which the beverage container 10 is seated. The second lifting portion 207 is formed on the second injection fixing plate 206 and is formed along the fourth injection circumference S4 substantially.

The second lift portion 207 is moved from the position where the third injection circumference S3 and the fourth injection circumference S4 are in contact with each other to a certain section (a section where the second guide plate 264 is formed) The lifting section 207a is formed so as to push up the lifting section 270 and the lifting section 207a while the lifted state is maintained after the lifting section 207a to form the lifting section 207b. And a descending section 207c that extends to a point where the fourth injection circumference S4 and the fifth injection circumference S5 are in contact with each other while descending the descending section 207a to the descending section 207a, 207d.

The second elevation part 207 has the same structure as that of the first elevation part 203. Further explanation of the second elevation part 207 is omitted in the description of the first elevation part 203. [

The second injection nozzle unit 280 rotates together with the second seating unit 270 and is repeatedly formed along the fourth injection circumference S4 as in the second seating unit 270. The second injection nozzle unit 280 is formed in the same number as that of the second seating unit 270 and is formed directly on the second seating unit 270.

The second injection nozzle unit 280 is coupled to the lower side of the second housing 208 and includes a second cylinder 281, a second piston 282, a second spring 283, a second contact plate 284, A second injection nozzle 285 and a second communicating pipe 286. [

The second injection nozzle unit 280 has the same structure as the first injection nozzle unit 250 and includes a second housing 208, a second cylinder 281, a second piston 282, a second spring 283 The description of the second contact plate 284, the second injection nozzle 285 and the second communicating tube 286 is made by the first housing 204, the first cylinder 251, the first piston 252, The description of the first spring 253, the first contact plate 254, the first injection nozzle 255, and the first communicating pipe 256 is omitted. The lower part of the second injection nozzle 285 and the second communicating pipe 286 is inserted toward the inside of the second body part 12 of the beverage container 10 and the second part of the second injection pipe 285 is inserted into the second body part 12, Allow the beverage to be injected.

As described above, in the automatic beverage injection device 200 according to the present invention, the beverage container 10 is divided into the first body portion 11 and the second body portion 12 can be stored two different beverages (10) Injecting the first beverage and the second beverage into the), the first injection corresponding groove 223a is formed in the injection separation unit 220 and the second injection corresponding groove 231a in the first injection rotating unit 230. The beverage container 10 which is continuously delivered to be formed is always placed on the first seating part 240 and the second seating part 270 in the same direction and position, and the first injection nozzle 255 and the second injection nozzle Since 285 faces the inside of the first body portion 11 and the second body portion 12, respectively, the first body portion 11 and the second body portion while allowing a large amount of the beverage container 10 to move continuously. (12) The first beverage and the second beverage are filled exactly inside.

The automatic drink injection device 200 according to a preferred embodiment of the present invention includes a third injection rotation unit 290, the third injection rotation unit 290 is a third injection rotation turret 291 and the third injection rotation guide ( 292).

When the beverage container 10 is rotated by the second seat portion 270 after the second beverage is injected into the second body portion 12, the downward interval 207c of the second lift portion 207, The beverage container 10 must move along the fourth injection circumference S4 even when the beverage container 10 is not fixed between the second seat portion 270 and the second injection nozzle portion 280, The beverage container 10 is still moved along the fourth injection circumference S4 by the second auxiliary guide plate 274 formed from the position of the second supplementary guide plate 274. At this time, since the beverage container 10 is supported by the second auxiliary guide plate 274 and the second injection gripper 271, the beverage container 10 is stably positioned on the second seat portion 270.

The second auxiliary guide plate 274 is formed similarly to the second guide plate 264 and does not have to be formed all around the fourth injection circumference S4, but it may be formed at a certain interval. The third injection rotation turret 291 and the third injection rotation guide 292 of the third injection rotation unit 290 move to the third injection rotation unit 290 when the beverage container 10 moves from the second seat portion 270 to the third injection rotation unit 290. [ As shown in FIG. Therefore, the second auxiliary guide plate 274 should be formed only up to the point where the beverage container 10 is in contact with the fourth injection circumference S4 and the fifth injection circumference S5.

The third injection rotation turret 291 rotates with a diameter corresponding to the fifth injection circumference S5 and the fourth injection corresponding groove 291a is repeatedly formed at the end. The rotation direction of the third injection rotation turret 291 is opposite to the rotation direction of the second seat portion 270 and rotates in the same direction as the second injection rotation turret 261. The intervals of the fourth injection corresponding grooves 291a on the third injection rotation turret 291 coincide with the intervals between the second placement parts 270 and are set so that the beverage container 10 moved by the second placement part 270, Is transferred to the third injection rotary turret 291 as it is.

It is preferable that the fourth injection corresponding groove 291a is formed so as to correspond to the shape of the end surface of the beverage container 10 on the side of the second side wall portion 14. [ That is, the fourth injection corresponding groove 291a is preferably formed in the same manner as the third injection corresponding groove 261a.

The third injection rotation guide 292 is formed along the periphery of the third injection rotation turret 291 and is spaced apart from the third injection rotation turret 291 and is disposed between the third injection rotation turret 291 and the beverage container 10 to guide the second seat portion 270 when it is discharged.

The distance between the inside of the fourth injection corresponding groove 291a of the third injection rotation turret 291 and the third injection rotation guide 292 is a distance between the first side wall portion 13 and the second side wall portion 14 And the second sidewall part 14 is maintained in a state of being oriented toward the center of the third injection rotary turret 291 and is rotated without changing the direction of the beverage container 10. [

Thus, the third injection rotation unit 290 allows the beverage container 10 filled with the first beverage and the second beverage to be discharged to the outside from the second seat 270 naturally. The beverage container 10 discharged through the third injection rotation unit 290 is moved to a capping process for covering the neck portion 15 with a stopper.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

10: beverage container 11: first body part
12: second body part 13: first side wall part
14: second side wall portion 15: neck portion
16: Boundary
200: automatic drink injection device 201: first injection fixing plate
202: first injection rotation plate 203: first lift part
204: first housing 204a: first beverage inlet
205: second injection rotation plate 206: second injection fixing plate
207: second lift portion
208: second housing 208: second beverage inlet
210: injection supply part 211: guide wall
220: injection separation part 221: screw driving part
222: screw driving arm 223: injection rotating screw
223a: first injection corresponding groove 230: first injection rotation part
231: first injection rotary turret 231a: second injection corresponding groove
232: first injection rotation guide 234: first guide plate
240: first seat part 241: first injection grip part
241a: first seat corresponding groove 242: first seat plate
243: first lift shaft 244: first auxiliary guide plate
250: first injection nozzle part
260: second injection rotation part
261: second injection rotary turret 261a: third injection corresponding groove
262: second injection rotation guide 264: second guide plate
270: second seat part 271: second injection grip part
271a: second seat corresponding groove 272: second seat plate
273: first lift shaft 274: second auxiliary guide plate
280: second injection nozzle part
290: third injection rotation part 291: third injection rotation turret
291a: fourth injection corresponding groove 292: third injection rotation guide

Claims (11)

A first sidewall portion and a second sidewall portion which are symmetrical with respect to a transverse plane center line are formed by a first body portion in which a first beverage is received and a second body portion in which a second beverage is received, And a neck portion communicating with an upper end of the second body portion, the first beverage and the second beverage being filled in the beverage container,
An injection supply unit for continuously conveying the beverage container in a direction parallel to the center line;
A first injection corresponding groove corresponding to an end surface of the first sidewall of the beverage container is formed and an injection separation part separating the beverage container at a predetermined interval at an end of the injection supply part;
A first injection rotary part formed with a second injection corresponding groove corresponding to an end surface of the second sidewall part of the beverage container and moving the beverage container separated by the injection separation part along a first injection circumference;
A first seating part on which the beverage container rotated by the first injection rotation part is seated and rotates along a second injection circumference which is in contact with the first injection circumference;
A first injection nozzle part rotating together with the first seat part and injecting the first beverage through a first injection nozzle directed to the inside of the first body part;
A third injection corresponding groove corresponding to an end surface of the second sidewall of the beverage container is formed and the beverage container rotated by the first seat portion is moved along a third injection circumference which is in contact with the second injection circumference A second injection rotary part for moving the second injection rotary part;
A second seating part on which the beverage container rotated by the second injection rotation part is seated and rotates along a fourth injection circumference contiguous with the third injection circumference; And
And a second injection nozzle part which rotates together with the second seating part and injects the second beverage through a second injection nozzle facing the inside of the second body part.
Wherein a vertical distance between the first sidewall portion and the second sidewall portion is the shortest among the cross-sectional diameters of the beverage container,
A guide wall for guiding the beverage container is formed in the injection supply part,
Wherein an interval between the guide walls is equal to or greater than a vertical distance between the first side wall portion and the second side wall portion and shorter than a maximum distance between the first side wall portion and the second side wall portion. delete The method of claim 1,
Wherein the first body part and the second body part are symmetrical to each other. The method of claim 1,
Wherein the injection separation part is formed with an injection rotation screw in which a rotation axis is parallel to a transfer direction of the beverage container,
Wherein the injection rotation screw is formed with the first injection corresponding groove along the screw direction,
Wherein the first injection corresponding groove is formed so as to be deeper and wider in the direction toward the first injection rotation part. [2] The apparatus of claim 1,
A first injection rotary turret having a diameter corresponding to the first injection circumference and formed at the end portion of the second injection corresponding groove repeatedly; And
And a first injection rotation guide spaced apart from the first injection rotation turret and guided from the injection separation portion to the first seating portion via the beverage container between the first injection rotation turret. Beverage infusion device. The method of claim 1, wherein the second injection rotation portion,
A second injection rotating turret which rotates with a diameter corresponding to the third injection circumference and in which the third injection corresponding groove is repeatedly formed; And
And a second injection rotation guide spaced apart from the second injection rotation turret and guided from the first seating portion to the second seating portion via the beverage container between the second injection rotating turret. Beverage automatic injection device. The method according to any one of claims 1 and 3 to 6,
The first sidewall portion is formed on one side wall of the first body portion, the second sidewall portion is formed on one side wall of the second body portion, and a boundary between the first body portion and the second body portion is formed on the first sidewall portion and the second sidewall portion. And is parallel to the second side wall portion. The method according to any one of claims 1 and 3 to 6,
Wherein the first seat portion is formed with a first injection grip portion having a first seat corresponding groove corresponding to an end surface of the first side wall portion of the beverage container,
The second seating portion, the beverage injection device, characterized in that the second injection gripping portion is provided with a second seating corresponding groove corresponding to the end surface of the first side wall portion of the beverage container. The method of claim 8,
Wherein the first sidewall portion and the second sidewall portion are spaced apart from each other by a distance corresponding to a vertical distance between the first sidewall portion and the second sidewall portion and are formed concentrically with the second injection circumference, A first guide plate formed from the point of contact; And
Spaced apart from the second seating corresponding groove by a distance corresponding to a vertical distance of the first side wall portion and the second side wall portion, and formed on the concentric circle with the fourth injection circumference, wherein the third injection circumference and the fourth injection circumference Automatic beverage injection device comprising a second guide plate formed from the point of contact. The method according to any one of claims 1 and 3 to 6,
A first elevating portion for pushing up or lowering the first seating portion on which the beverage container is seated is formed below the first seating portion,
Wherein the first injection nozzle is opened when the beverage container is lifted by the first lift portion and closed when the beverage container is lifted by the first lift portion,
A second elevating portion for pushing up or lowering the second seating portion on which the beverage container is seated is formed below the second seating portion,
And the second injection nozzle is opened when the beverage container is lifted by the second lifter and closed when it is lowered. The method according to any one of claims 1 and 3 to 6,
A fourth injection corresponding groove corresponding to the end surface of the second side wall portion of the beverage container is formed, and along the fifth injection circumference that circumscribes the beverage container rotated by the second seating portion with the fourth injection circumference. Beverage injection device further comprises a third injection rotation to move.

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