KR200469342Y1 - Juicer - Google Patents

Abstract

The present invention relates to a juicer, a drive unit having a housing, a drive shaft installed to be exposed to the outside of the housing, is formed in a tubular shape and the pipe wall is formed with a material inlet, the material inlet is directed upward and the drive shaft is one side A pulverization barrel which enters through the opening and is supported to be supported by the housing, and extends from the discharge barrel body so as to seal one side opening of the tubular discharge barrel body having a juice outlet in one area and the outlet barrel body portion; And a discharge container having a discharge container support plate having a waste discharge outlet formed in one region, and having a juice discharge port facing downward and the waste discharge port facing forward, and formed in a tubular shape in which the front section is tapered. And a number of juice through holes are formed in the pipe wall, and the front opening is opened to the waste outlet. A pressing cylinder installed to communicate with the driving shaft, and a material installed inside the grinding cylinder and the pressing cylinder so as to be coupled to the driving shaft and interlocked with a rotational operation of the driving shaft to process a material introduced through the material inlet, and to process a workpiece into the juice outlet and the dregs. In a juicer having a material processing body discharged through the discharge port, the waste discharge port is characterized in that formed on the path of the end of the screw is rotated. Thereby, the front end of the material processing body can be supported by the discharge container, and the juice efficiency can be improved.

Description

Juicer {Juicer}

The present invention relates to a juicer, and more particularly, to a device for grinding a juice material such as vegetables, fruits, and finally processing the food in the form of juice.

The juice is in the form of juice.

Fig. 9 is a perspective view of the conventional juicer, Fig. 10 is a cross-sectional view of the discharge vessel region of the conventional juicer, and Fig. 11 is a perspective view of the discharge vessel of the conventional juicer.

The conventional juicer, as shown in these figures, is parallel to the drive portion 120 having a housing 111, a drive shaft 121 provided to be exposed to the outside of the housing 111, and the front portion of the housing 111 A pair of support shafts 113 coupled to each other, a tube-shaped mill 130 installed to be supported by the housing 111 in front of the drive shaft 121, and a discharge cylinder coupled to the mill 130. 150, a pressurizing tube 140 interposed between the discharge barrel 150 and the grinding barrel 130, a material input pipe 191 standing on the upper surface of the grinding barrel 130, and a grinding barrel 130. The material processing body 180 provided inside the pressing cylinder 140 and the protective cover 195 provided in the circumferential area of the grinding cylinder 130 are provided.

The housing 111 has a rear support groove 111a formed in an adjacent region of the front drive shaft 121.

In addition to the drive shaft 121, the drive unit 120 has a motor, a power transmission unit, and the like as is known in the art.

The support shaft 113 is formed with a fixing recess 113a at the end along the circumferential direction.

Grinding cylinder 130 is formed on one side of the grinding cylinder fixing groove 131 of the arc cross-section form one by one.

And the grinding barrel 130 is formed in the juice auxiliary tube 132 and the guide tube 133 so as to cooperate with each other in the front end to form a substantially "8" shape.

Juice auxiliary pipe 132 is formed on the bottom main juice drop opening (132a).

The grinding barrel 130 having such a configuration is coupled to the support shaft 113 through the grinding cylinder fixing groove 131. Here, the combination of the grinding barrel 130 is made so that the material input pipe 191 is disposed along the height direction of the housing 111.

Discharge container 150 is a discharge cylinder body 151 of the tubular shape, discharge cylinder support plate 152 formed from the discharge cylinder body 151 to seal the opening of one side of the discharge cylinder body 151, and discharge It has the waste discharge pipe part 153 formed in the notification board 152. As shown in FIG.

The discharge barrel body portion 151 has a juice barrel opening 151a is formed on the bottom surface, the axial coupling protrusion 151b is formed one by one.

Axial coupling holes 151c are formed through the axial coupling protrusion 151b along the longitudinal direction.

The discharge cylinder support plate 152 has a pair of support tubes 152a formed in an inner surface on a circular cross section. One of the support tubes 152a is formed to communicate with the waste discharge pipe 153.

Discharge container 150 having such a configuration is installed so that the support shaft 113 is inserted into the shaft coupling hole (151c).

Here, the installation of the discharge container 150 is made so that the juice bottle and the opening 151a communicates with the main juice dropping opening 132a.

The pressing tube 140 is formed to be tapered, and a plurality of juice passing holes 140a are formed on the circumferential surface.

In addition, a cylindrical gear support portion 141 is integrally formed in the crimping cylinder 140.

The pressing tube 140 and the gear support 141 having such a configuration enter the juice auxiliary tube 132 and the guide tube 133, respectively, and the front end is installed to be supported by the support tube 152a, respectively.

The material processing body 180 has a moving material processing body 181 coupled to the drive shaft 121 and a driven material processing body 182 geared to the moving material processing body 181.

The movable material processing body 181 has a helical gear type and a screw formed on the outer surface thereof.

The driven material processing body 182 has a helical gear shape formed on its outer surface.

The driven material processing body 182 having such a configuration is provided to rotate in engagement with the moving material processing body 181 in the region between the pair of support shafts 113.

And the driven material processing body 182 is supported by the front end to the support pipe 152a in the installation state.

The protective cover 195 has a pair of fixed shafts 195a protruding from the inner surface thereof.

The protective cover 195 having such a configuration is installed on the support shaft 113 by entering the fixed shaft 195a into the fixing recess 113a in the upward direction, respectively.

Referring to the method of using a conventional juicer having such a configuration as follows.

When power is first supplied to the drive unit 120, the drive shaft 121 rotates. As the drive shaft 121 rotates, the moving material processing body 181 and the driven material processing body 182 rotate while the teeth are engaged.

When the moving material processing body 181 and the driven material processing body 182 rotate, the juice material (vegetables, fruits, etc.) is input through the material input pipe 191.

The juice material introduced through the material input pipe 191 is pulverized by the helical gear type of the moving material processing body 181 and the driven material processing body 182.

The juice material pulverized by the helical gear type of the moving material processing body 181 and the driven material processing body 182 is compressed by the interaction between the screw and the pressing tube 140 of the moving material processing body 181, and the residue is left. It is conveyed toward the discharge pipe part 153.

Here, the juice generated by the crimping operation between the screw and the pressing barrel 140 of the moving material processing body 181 is the juice passing hole 140a, the main juice dropping opening 132a, and the juice passing opening 151a sequentially. After passing, fall into the juice storage cup.

And the residue generated by the pressing operation between the screw and the pressing cylinder 140 of the moving material processing body 181 falls through the residue discharge pipe portion 153 to the residue storage container.

However, according to the conventional juicer, the waste discharge pipe portion 153 is opposed to the front end of the moving material processing body 181, and thus the moving material is not able to support the front end of the moving material processing body 181 in the discharge container 150. There was a problem that it is difficult to stably maintain the rotation operation of the workpiece 181.

And since the waste discharge pipe portion 153 is opposed to the front end of the moving material processing body 181, since the waste discharge space becomes relatively large, the crimping operation between the screw and the pressing tube 140 of the moving material processing body 181 is sufficient. There was a problem that the juice efficiency is lowered because the juice material is discharged in the form of dregs in a non-occurring state.

Therefore, an object of the present invention is to provide a juicer that can support the front end of the material processing body to the discharge vessel and improve the juice efficiency.

The object is, according to the present invention, a drive unit having a housing, a drive shaft installed to be exposed to the outside of the housing, and formed in a tubular shape and the pipe wall is formed with a material inlet, the material inlet is directed upward and the drive shaft is A pulverization barrel which enters through one side opening and is supported to be supported by the housing, and extends from the discharge barrel body portion to seal one side opening of the discharge barrel body and a tubular discharge barrel body in which a juice outlet is formed in one region; And a discharge container coupled to the grinding container so that the juice discharge port faces downward and the waste discharge port faces forward, and has a discharge container support plate having a discharge discharge port formed in one region, and the front section is tapered. A plurality of juice through holes are formed in the pipe wall, and the front opening communicates with the waste outlet. It is installed in the crushing cylinder and the compression cylinder so as to be coupled to the drive shaft through the screw body portion having a crimping cylinder installed in the lock, a screw-shaped rod body and a screw body formed in the screw body portion and interlocked with the rotational motion of the drive shaft. In the juicer having a material processing body for processing the material flowing through the material inlet and discharge the workpiece through the juice outlet and the waste outlet, the residue outlet is formed on the path of the end of the screw is rotated It is achieved by a juicer characterized in that.

Here, in order to improve the compression efficiency between the material processing body and the pressing cylinder, the residue outlet has a width arc in the left region and the right region, respectively, when dividing the discharge support plate into the left region and the right region. Iii) one by one in form; The cap wing portion has a screw rod coupled to the discharge barrel support plate, a pair of cap wings extending from an outer surface of the cap body portion so as to form a bow tie in cooperation with the cap body portion and the cap body portion in a tubular shape. It is preferable to further include a control cap of the elastic material installed on the screw rod to seal the residue discharge port, and a fastening member screwed to the screw rod to press the control cap toward the discharge support plate during the rotation operation Do.

And in order to prevent the dregs stick out through the dregs outlet by providing a dregs collection space to reduce the dregs discharge rate in the middle of the dregs discharge path, each cap blade portion is a distance from the dregs outlet A wing body portion extending from the cap body portion to have a opening, and an opening and closing rib extending from the wing body portion to form a step shape with respect to the residue guide inclined surface; The control cap is preferably installed on the screw rod so that the opening and closing ribs seal the waste outlet.

In addition, to prevent the external shock is transmitted to the control cap to maintain the initial installation state of the control cap, the discharge container further includes a cap protection wall protruding on the front of the discharge container support plate to surround the control cap It is preferable.

In addition, the waste discharge port is preferably formed in the shape of an arc having a width in the lower region when the waste discharge plate is divided into two parts into the upper region and the lower region so that the rotational operation of the material processing body is stable.

Therefore, according to the present invention, it is possible to support the front end of the material processing body to the discharge vessel can maintain the rotational movement of the material processing body stable, the waste discharge space is relatively small can improve the juice efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a juicer according to one embodiment of the present invention,
Figure 2 and Figure 3 is an exploded perspective view of a juicer according to an embodiment of the present invention, respectively;
4, 5 and 6 are detailed views of the adjustment cap shown in FIG. 2, respectively.
Figure 7 is a cross-sectional view of the discharge container region of the juicer according to an embodiment of the present invention,
Figure 8 is a perspective view of the discharge container of the juicer according to another embodiment of the present invention,
9 is a perspective view of a conventional juicer combined,
10 is a cross-sectional view of the discharge vessel region of the conventional juicer,
11 is a perspective view of a discharge container of a conventional juicer.

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

1 is a combined perspective view of a juicer according to an embodiment of the present invention, Figures 2 and 3 are exploded perspective views of the juicer according to an embodiment of the present invention, respectively, Figures 4, 5 and 6 Figure 2 is a detailed view of the control cap shown in Figure 2, Figure 7 is a cross-sectional view of the discharge container region of the juicer according to an embodiment of the present invention.

Juicer according to an embodiment of the present invention, as shown in these figures, the drive unit 20 having a housing 11, a drive shaft 21 installed to be exposed to the outside of the housing 11, the housing 11 A pair of support tubes 12 installed at the front of the support shaft, a support shaft 13 installed at each support tube 12, a lock lever 14 coupled to the front end of the support shaft 13, and a drive shaft ( 21, a tubular pulverization cylinder 30 installed to be supported by the housing 11 in front of the 21, a discharge cylinder 50 coupled to the pulverization cylinder 30, and a screw rod 92 installed in the pulverization cylinder 30. And, the control cap 60 of the elastic material installed on the screw rod 92, the fastening member 93 coupled to the control cap 60, and the crimping interposed between the discharge cylinder 50 and the grinding barrel 30 The material processing body installed inside the cylinder 40, the material input pipe 91 standing on the upper surface of the grinding cylinder 30, and the grinding cylinder 30 and the pressing cylinder 40 to be coupled to the drive shaft 21 ( 80).

In addition to the drive shaft 21, the drive part 20 has a motor, a power transmission part, etc. as is conventionally known.

Each support tube 12 is installed to be parallel to the drive shaft 21.

Both ends of the support shaft 13 are exposed to the outside of each support tube 12, and are installed to be rotatable with respect to each support tube 12.

The lock lever 14 has a rod-shaped lock lever body portion 14a and a locking piece 14b extending from the lock lever body portion 14a so as to be disposed perpendicularly to the lock lever body portion 14a.

The lock lever 14 having this configuration is coupled to the front end of each support shaft 13 through the lock lever body portion 14a so that the lock lever body portion 14a is disposed along the longitudinal direction of the support shaft 13. .

The grinding barrel 30 has a material inlet 30a formed in the pipe wall, and the grinding cylinder fixing grooves 31 having arcuate cross-sections are formed one by one on both sides thereof.

The grinding cylinder fixing groove 31 has a grinding cylinder fixing groove 31a formed along the longitudinal direction.

The grinding barrel 30 having such a configuration is provided so that the material inlet 30a faces upward and the drive shaft 21 enters through one side opening.

The discharge container 50 is discharged from the body of the discharge container body 51 so as to seal the opening of one side of the discharge container body 51 and the tubular discharge container body 51, the juice discharge port 51a is formed on the bottom surface It has an extended discharge-outlet support plate 52, the cap protection wall part 53 formed in the front surface of the discharge-outlet support plate 52, and the drop guide chute 54. As shown in FIG.

The discharge barrel body 51 has a juice discharge port 51a formed on the bottom thereof, and discharge cylinder fixing groove portions 51b are formed one by one on both sides thereof.

Each discharge cylinder fixing groove 51b is formed with a discharge cylinder fixing groove 51c and a locking groove 51d.

The discharge cylinder fixing groove 51c is formed to be aligned with the grinding cylinder fixing groove 31a in the form of an arc cross section.

The locking groove 51d extends upward from the grinding cylinder fixing groove 31a so as to communicate with the grinding cylinder fixing groove 31a.

The pair of waste discharge ports 52a is formed in the discharge barrel support plate 52 in the form of a column arc having a width.

The waste discharge port 52a is formed so as to be disposed on a path in which the end of the screw 82 rotates in the left region and the right region when the discharge support plate 52 is divided into two regions.

Cap protective wall portion 53 is formed to protrude on the front surface of the discharge barrel support plate 52 to surround the adjustment cap (60).

The drop guide chute 54 is formed to protrude on the front surface of the discharge container support plate 52 so as to be disposed below the cap protection wall portion 53.

The discharge container 50 having such a structure is installed in front of the grinding container 30 so that the juice discharge port 51a faces downward.

The screw rod 92 has a male screw portion formed in the front region.

Screw rod 92 having such a configuration is coupled to the discharge barrel support plate 52 through the rear end.

The adjusting cap 60 has a tubular cap body portion 61 and a pair of cap wings extending from an outer surface of the cap body portion 61 to form a bow tie in cooperation with the cap body portion 61 ( 62).

Each cap wing portion 62 has a wing body portion 62a extending from the cap body portion 61 and an opening and closing rib 62c extending from the wing body portion 62a.

The wing body portion 62a extends to have a residue guide inclined surface 62b that is further distanced from the residue discharge port 52a.

The opening and closing rib 62c extends from the wing body portion 62a to form a step shape with respect to the residue guide inclined surface 62b.

The control cap 60 having such a configuration is installed in the screw rod 92 so that the opening and closing rib 62c seals the waste discharge port 52a. In the present specification, the expression that the opening and closing ribs 62c seals the waste outlet 52a indicates that the opening and closing ribs 62c are in contact with the discharge barrel support plate 52 and the circumferential region of the waste outlet to structurally seal the waste outlet 52a. In addition to the case does not contact the discharge container support plate 52, that is, in the state disposed in front of the waste discharge port (52a) when seen from the front of the discharge container 50 includes the waste discharge port (52a) is sealed. The expression that the cap wing portion 62 seals the residue outlet 52a is also used in two meanings, such as the expression that the opening / closing rib 62c seals the residue outlet 52a.

And the adjustment cap 60 is installed on the screw rod 92 to enter the inside of the cap protection wall (53).

Control cap 60 having the above-described structure and function can be manufactured using an elastic material such as silicone rubber.

The fastening member 93 has a screw hole 93a formed in the center region, and a female screw is formed on the inner circumferential surface of the screw hole 93a.

The fastening member 93 having such a configuration is screwed to the screw rod 92 through the screw hole 93a.

Accordingly, the fastening member 93 is able to press the control cap 60 toward the discharge barrel support plate 52 during the rotation operation.

The pressing section 40 has a tapered front section, and a plurality of juice passing holes 40a are formed in the tube wall.

The pressing cylinder 40 having such a configuration is installed so that the front opening communicates with the waste outlet 52a.

The material introduction pipe 91 is standing up on the upper surface of the grinding barrel 30 so as to communicate with the material inlet port 30a.

The material processing body 80 has a rod-shaped screw body portion 81 and a screw 82 formed on the screw body portion 81.

The material processing body 80 having such a configuration is coupled to the drive shaft 21 through the rear end such that the straight section of the screw body portion 81 is disposed below the material inlet port 30a.

The material processing body 80 is installed to be supported at the rear end of the screw rod 92 through the screw support groove 81a and the bush 94 formed at the front end.

Referring to the operation of the juicer according to an embodiment of the present invention having the above configuration as follows.

First, the grinding tube 30 is installed so that the support tube 12 is inserted into the grinding cylinder fixing groove 31a while the material processing body 80 is installed.

Next, the pressing cylinder 40 is provided so that the material processing body 80 may enter the inside of the pressing cylinder 40.

Next, the discharge container 50 is installed so that the lock lever body portion 14a is inserted into the discharge container fixing groove 51c.

Next, the locking lever 14 is rotated so that the locking piece 14b enters the locking groove 51d.

In the state where the engaging piece 14b enters the engaging groove 51d, the installation state of the pulverizing cylinder 30 and the discharge container 50 is stably established by the engaging action between the engaging piece 14b and the engaging groove 51d. Can be maintained.

Next, when power is supplied to the drive unit 20, the drive shaft 21 and the material processing body 80 rotate.

When the material processing body 80 rotates, the material (vegetable or fruit) is introduced through the material input pipe 91.

The processing material introduced through the material input pipe 91 passes through the material inlet 30a and is supplied to the material processing body 80.

The processing material supplied to the material processing body 80 is pulverized in the grinding barrel 30 and then transferred to the pressing cylinder 40 by the screw 82.

The processing material transferred to the pressing cylinder 40 is pressed by the interaction between the material processing body 80 and the pressing cylinder 40, and juice is produced during the pressing operation.

The resulting juice is passed through the juice through hole (40a) and then dropped through the juice outlet (51a) is collected in a storage cup (not shown).

Meanwhile, the remaining processed material residue is discharged through the residue outlet 52a in the following manner.

When the processing material residue is filled in the space surrounded by the waste discharge port 52a, the pressurization cylinder 40, the screw body 81, and the screw 82 by the pressurizing action of the screw 82, the processing material residue is a residue guide inclined surface ( It moves along 62b) and presses the opening-closing rib 62c.

When the opening / closing rib 62c is pressurized, the residue outlet 52a is opened (the distance between the opening and closing rib and the discharge pail support plate increases when the opening and closing rib does not contact the discharge pail support plate and increases). The material dregs pass through the dregs outlet 52a.

The processing material dregs that have passed through the dregs outlet 52a are guided by the drop guide chute 54 and collected in the dregs container (installed below the drop guide chute).

On the other hand, in the above-described embodiment, when the discharge bin support plate 52 is divided into two regions, the left discharge outlet 52a is formed so as to be disposed on a path in which the end of the screw 82 rotates in the left and right areas. However, as shown in FIG. 8, when the discharge bin support plate 52 is divided into two parts into an upper region and a lower region, the waste discharge outlet 52'a is formed in an arc shape having a width in the lower region to implement the present invention. Can be.

According to the embodiment of the present invention as described above, by forming the waste discharge port 52a on the path of the end of the screw 82 rotates, the front end of the material processing body 80 to support the discharge cylinder 50 It can be able to maintain a stable rotation operation of the material processing body 80, the waste discharge space is relatively small it is possible to improve the juice efficiency.

In addition, the waste outlet 52a is formed in the form of a thermal arc having a width in the left region and the right region of the discharge support plate, and the waste discharge outlet 52a is sealed using the control cap 60 made of an elastic material. As a result, the pressing efficiency between the material processing body 80 and the pressing cylinder 40 can be improved.

In addition, the control cap (60) to have a wing body portion (62a) having a residue guide inclined surface (62b) and the opening and closing ribs (62c) to form a step with respect to the residue guide inclined surface (62b) farther away from the waste outlet (52a) By constructing a), a waste collection space (space between the residue guide slope and the opening / closing rib) is provided in the middle of the waste discharge path so as to prevent the dregs from popping out through the waste discharge outlet 52a.

In addition, by configuring the discharge container 50 to further include a cap protection wall protruding on the front surface of the discharge container support plate 52 to surround the control cap 60, to prevent the external shock is transmitted to the control cap 60 to adjust The initial installation state of the cap 60 can be stably maintained.

In addition, by forming the waste discharge port 52'a in the shape of an arc having a width in the lower region of the discharge barrel support plate 52, the rotational operation of the material processing body 80 can be made stable (the residue leaving the screw). Is discharged through the dregs outlet so that the rotational movement of the workpiece is not disturbed by the dregs).

11, 111: housing 12, 112: support tube
13, 113: support shaft 14, 114: lock lever
20, 120: drive unit 30, 130: grinding barrel
40, 140: crimp bin 50, 150: discharge bin
51, 151: discharge container body 52, 152: discharge container support plate
53: cap protection wall 54, 154: drop guide chute
60: control cap 61: cap body portion
62: cap wing 80, 180: material processing body
91, 191: Material input pipe 92: Screw rod
93: tightening member

Claims (5)

delete A drive unit having a housing, a drive shaft installed to be exposed to the outside of the housing, and formed in a tubular shape, and a material inlet is formed in the pipe wall, the material inlet faces upward, and the drive shaft enters through one side opening and enters the housing. A pulverization cylinder installed to be supported, and extending from the discharge barrel body to seal one side opening of the tubular discharge barrel body having a juice discharge port formed in one region and the discharge barrel body portion, and forming a waste discharge outlet in one region. It has a discharge container supporting plate is formed in the discharge container coupled to the pulverizing cylinder so that the juice discharge port is directed downward and the waste discharge port is forward, and the front section is tapered tubular wall and a plurality of juice passage holes in the pipe wall And a press-formed rod formed in such a way that the front opening is in communication with the waste outlet. Has a screw body portion and a screw formed in the screw body portion of the crushing cylinder and the compression cylinder to be coupled to the drive shaft through the screw body portion is introduced through the material inlet in conjunction with the rotational movement of the drive shaft In the juicer having a material processing body for processing the material and discharge the workpiece through the juice outlet and the waste outlet,
The dregs outlets are formed one by one in an arc shape having a width in the left region and the right region, when the discharge barrel supporting plate is divided into two regions in the left region and the right region on the path in which the end of the screw rotates. ;
The cap wing portion has a screw rod coupled to the discharge barrel support plate, a pair of cap wings extending from an outer surface of the cap body portion so as to form a bow tie in cooperation with the cap body portion and the cap body portion in a tubular shape. And a tightening member screwed to the screw rod so as to press the control cap toward the discharge support plate during the rotation operation, and an adjustment cap of an elastic material installed on the screw rod to seal the residue discharge port. Juicer. 3. The method of claim 2,
Each cap wing portion has a wing body portion extending from the cap body portion so as to have a residue guide inclined surface gradually distanced from the waste discharge outlet, and opening and closing ribs extended from the wing body portion to form a step with respect to the dreg guide slope surface Including;
The control cap is juicer, characterized in that the opening and closing ribs are installed on the screw rod to seal the residue outlet. The method of claim 3,
The discharge container is a juicer, characterized in that it further comprises a cap protection wall protruding on the front surface of the discharge container support plate to surround the control cap. 3. The method of claim 2,
The waste discharge port is juicer, characterized in that formed in the shape of an arc having a width in the lower region when the discharge bin support plate divided into two upper and lower regions.

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