KR200462770Y1 - 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 discharge barrel body portion is a tubular external discharge container body portion formed with an external juice discharge port forming an external section of the juice discharge port and the inner section of the juice discharge port An inner juice outlet is formed to form the inner juice outlet is characterized in that it comprises an inner discharge barrel body of the tubular shape detachably coupled to the inside of the outer discharge barrel body to communicate with the outer juice outlet. Thereby, a discharge container can be manufactured using two types of material.

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.

As they enjoy the food in the juice form, the juicer is being used.

8 is a perspective view of a conventional juicer combined, Figure 9 is an exploded perspective view of a conventional juicer, Figure 10 is a detailed view of the discharge container of the conventional juicer.

The conventional juicer, as shown in these figures, as long as it is installed on the front of the housing 111, the drive unit 120 having a drive shaft 121 installed to be exposed to the outside of the housing 111, and the housing 111 A pair of support tubes 112, a support shaft 113 provided at each support tube 112, a lock lever 114 coupled to the front end of the support shaft 113, and a housing in front of the drive shaft 121. Tube-type crushing cylinder 130 is installed to be supported by the 111, the discharge cylinder 150 coupled to the pulverization cylinder 130, the compression cylinder interposed between the discharge cylinder 150 and the pulverization cylinder 130 140, the material input pipe 191 standing on the upper surface of the grinding cylinder 130, and the material processing body 180 installed inside the grinding cylinder 130 and the pressing cylinder 140 to be coupled to the driving 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.

Each support tube 112 is installed to be parallel to the drive shaft 121.

Both ends of the support shaft 113 are exposed to the outside of each support tube 112 and are installed to be rotatable with respect to each support tube 112.

The lock lever 114 has a rod-shaped lock lever body portion 114a and a locking piece 114b extending from the lock lever body portion 114a so as to be disposed perpendicularly to the lock lever body portion 114a.

The lock lever 114 having such a configuration is coupled to the front end of each support shaft 113 through the lock lever body 114a so that the lock lever body 114a is disposed along the longitudinal direction of the support shaft 113. .

The grinding cylinder 130 is formed with a material inlet 130a in the tube wall, and the grinding cylinder fixing grooves 131 having arcuate cross-sections are formed one by one on both sides thereof.

The grinding cylinder fixing groove 131 has a grinding cylinder fixing groove 131a formed along the longitudinal direction.

The grinding cylinder 130 having such a configuration is installed such that the material inlet 130a faces upward and the drive shaft 121 enters through one side opening.

The discharge container 150 is discharged from the body of the discharge container body 160 to seal the opening of one side of the discharge container body 160 of the tubular shape with the juice outlet (160a) formed on the bottom surface; It has an extended discharge container support plate 170.

The discharge barrel body 160 has discharge cylinder fixing grooves 161b formed on both sides thereof one by one.

Each discharge cylinder fixing groove 161b is formed with a discharge cylinder fixing groove 161c and a locking groove 161d.

The discharge cylinder fixing groove 161c is formed to be aligned with the grinding cylinder fixing groove 131a in the form of an arc cross section.

The locking groove 161d extends upward from the grinding cylinder fixing groove 131a so as to communicate with the grinding cylinder fixing groove 131a.

The discharge bin support plate 170 has a residue discharge port 171b formed in the center area.

Residue discharge port 171b is formed in a pair with a phase difference of 180 degrees.

Discharge cylinder 150 having such a configuration is integrally formed of a material having a high strength, such as acetal resin, is installed in front of the pulverization barrel 130 so that juice outlet (160a) is directed downward.

The pressing tube 140 is tapered in the front section and a plurality of juice passing holes 140a are formed in the pipe wall.

The pressing cylinder 140 having such a configuration is installed so that the front opening communicates with the waste outlet 171b.

The material input pipe 191 is standing up on the upper surface of the grinding barrel 130 so as to communicate with the material inlet (130a).

The material processing body 180 has a rod-shaped screw body portion 181 and a screw 182 formed in the screw body portion 181.

The material processing body 180 having such a configuration is coupled to the drive shaft 121 such that a straight section of the screw body portion 181 is disposed below the material inlet 130a.

Referring to the operation of the conventional juicer having the above-described configuration is as follows.

First, the grinding tube 130 is installed so that the support tube 112 is inserted into the grinding cylinder fixing groove 131a while the material processing body 180 is installed.

Next, the pressing cylinder 140 is installed so that the material processing body 180 enters the inside of the pressing cylinder 140.

Next, the discharge container 150 is installed so that the lock lever body 114a is inserted into the discharge container fixing groove 161c.

Next, the locking lever 114 is rotated so that the locking piece 114b enters the locking groove 161d.

In the state where the engaging piece 114b enters the engaging groove 161d, the installation state of the pulverization container 130 and the discharge container 150 is stably established by the engaging action between the engaging piece 114b and the engaging groove 161d. Can be maintained.

Next, when power is supplied to the drive unit 120, the drive shaft 121 and the material processing body 180 rotate.

When the material processing body 180 rotates, the material (vegetable or fruit) is input through the material input pipe 191.

The processing material introduced through the material input pipe 191 is supplied to the material processing body 180 through the material inlet 130a.

The processing material supplied to the material processing body 180 is pulverized in the grinding barrel 130 and then transferred to the pressing cylinder 140 by the screw 182.

The processing material transferred to the pressing cylinder 140 is pressed by the interaction between the material processing body 180 and the pressing cylinder 140, and juice is generated during the pressing operation.

The resulting juice is passed through the juice through hole (140a) and then dropped through the juice outlet (160a) is collected in a storage cup (not shown).

Meanwhile, the remaining processed material residue is discharged through the residue outlet 171b.

By the way, according to the conventional juicer, since the discharge container 150 is formed in one body, the material of the discharge container 150 is limited to a single material having high strength, and cracks over the entire thickness of the discharge container 150 at the time of external impact. There was a problem that (crack) may occur.

And because the material of the discharge container 150 is limited to a single material having a high strength, there is a problem in that it is not possible to use good properties (coloring property, etc.) of a material having a relatively low strength.

Accordingly, an object of the present invention is to provide a juicer that can produce a discharge container using two kinds of materials.

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. A pressurized cylinder installed in the lock, and installed inside the grinding cylinder and the pressurized cylinder so as to be coupled to the drive shaft, and processing a material introduced through the material inlet in conjunction with a rotational operation of the drive shaft, and processing a workpiece into the juice outlet and the dreglet outlet. In the juicer having a material processing body to be discharged through the, the discharge barrel body portion of the tubular external discharge container body and the inner discharge section of the juice discharge port formed with an external juice outlet forming an external section of the juice discharge port An inner juice outlet forming is formed and the inner juice outlet is achieved by a juicer, characterized in that it comprises an inner discharge barrel body of the tubular shape coupled to the inside of the outer discharge barrel body to communicate with the outer juice outlet. .

Here, the discharge barrel support plate is formed to extend from the outer discharge cylinder body portion to seal one side opening of the outer discharge cylinder body portion so that the discharge barrel support plate using two kinds of materials, the guide hole is formed in one area It is preferable to include an outer discharge cylinder support plate, and an inner discharge cylinder support plate extending from the inner discharge cylinder body portion to seal one side opening of the inner discharge cylinder body portion and having the dreg discharge port formed to communicate with the guide hole. .

Therefore, according to the present invention, by dividing the discharge container body portion into the external discharge cylinder body portion and the inner discharge cylinder body portion, it is possible to produce a discharge container using two kinds of materials, according to the material of the discharge container 50 The range of options can be increased and the probability of cracking over the entire thickness of the discharge bin during external impact can be reduced.

1 is a perspective view of the juicer in accordance with an embodiment of the present invention,
Figure 2 is an exploded perspective view of a juicer according to an embodiment of the present invention,
3, 4, 5, 6 and 7 are detailed views of the discharge container shown in FIG. 2, respectively.
8 is a perspective view of a conventional juicer combined,
9 is an exploded perspective view of a conventional juicer,
10 is a detailed view of the discharge container of the 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, Figure 2 is an exploded perspective view of a juicer according to an embodiment of the present invention, Figures 3, 4, 5, 6 and 7 are respectively 2 is a detailed view of the discharge container shown in FIG.

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, support shafts 13 installed one at each support tube 12, a lock lever 14 coupled to the front end of the support shaft 13, and a drive shaft 21 Interposed between the tube-type grinding barrel 30 is installed to be supported by the housing 11 in front of the), the discharge cylinder 50 coupled to the grinding cylinder 30, the discharge cylinder 50 and the grinding cylinder 30 Material processing pipe installed in the inside of the crushing cylinder 30 and the pressing tube 40 to be coupled to the pressing cylinder 40, the material input pipe 91 standing on the upper surface of the grinding cylinder 30, the drive shaft 21 It has a sieve 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 60 so as to seal the opening of one side of the discharge container body 60 and the tubular discharge outlet 60a is formed with a juice discharge port (60a) on the bottom surface It has an extended discharge container support plate 70.

The discharge cylinder body 60 has a tubular external discharge cylinder body 61 and a tubular internal discharge cylinder body 62 coupled to the inside of the external discharge cylinder body 61.

The outer discharge container body 61 is formed with an outer juice discharge port 61a that forms an outer section of the juice discharge port 60a on the bottom thereof, and discharge discharge groove fixing grooves 61b are formed on each side.

Each discharge cylinder fixing groove portion 61b is formed with a discharge cylinder fixing groove 61c and a locking groove 61d.

The discharge cylinder fixing groove 61c is formed to be aligned with the grinding cylinder fixing groove 31a in the form of an arc cross section.

The locking groove 61d extends upward from the grinding cylinder fixing groove 31a so as to communicate with the grinding cylinder fixing groove 31a.

In the outer discharge cylinder body 61, a pair of sliding grooves 61e are formed at a rear end with a phase difference of 180 degrees.

The internal discharge barrel body 62 is formed with an internal juice discharge port 62a forming an internal section of the juice discharge port 60a.

In the inner discharge cylinder body 62, a pair of seating protrusions 62b are formed at a rear end with a phase difference of 180 degrees.

The inner discharge barrel body 62 having such a configuration has an outer discharge barrel body 61 so that the seating protrusion 62b enters the sliding groove 61e and the inner juice discharge port 62a communicates with the outer juice discharge port 61a. ) Is combined. Here, the coupling of the inner discharge barrel body 62 is coupled to the outer discharge barrel body 61 by an insert injection method or manufactured separately from the outer discharge barrel body 61 and then to the outer discharge barrel body 61. Can be combined.

The discharge cylinder support plate 70 includes an external discharge cylinder support plate 71 extending from the external discharge cylinder body 61 so as to seal one side opening of the external discharge cylinder body 61, and the internal discharge cylinder body 62. It has the inner discharge cylinder support plate 72 extended from the inner discharge cylinder body 62 so that one side opening may be sealed.

In the outer discharge support plate 71, a guide hole 71a is formed in the center region.

The inner discharge cylinder support plate 72 is formed such that the waste discharge port 71b communicates with the guide hole 71a.

The waste discharge port 71b is formed in a pair with a phase difference of 180 degrees.

The external discharge cylinder body 61 and the external discharge cylinder support plate 71 are integrally formed using a material having high strength such as acetal resin, and the internal discharge cylinder body 62 and the internal discharge support plate 72 ) Is lower than that of acetal resin, but is integrally formed using a material (such as ABS resin) having characteristics such as colorability.

The pressing tube 40 is tapered in the front section and a plurality of juice through holes 40a are formed in the pipe wall.

The crimping cylinder 40 having such a configuration is provided so that the front opening communicates with the waste outlet 71b.

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 so that the straight section of the screw body portion 81 is disposed below the material inlet port 30a.

In addition, the material processing body 80 is installed to be supported by the discharge barrel support plate 70 through a bush (not shown) coupled to the screw support groove 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 61c.

Next, the locking lever 14 is rotated so that the locking piece 14b enters the locking groove 61d.

In the state where the locking piece 14b enters the locking groove 61d, the installation state of the pulverization cylinder 30 and the discharge cylinder 50 is stably established by the locking action between the locking piece 14b and the locking groove 61d. 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 (60a) is collected in a storage cup (not shown).

Meanwhile, the remaining processed material residue is discharged through the residue outlet 71b.

According to the embodiment of the present invention as described above, by dividing the discharge barrel body portion 60 into an external discharge cylinder body portion 61 and the inner discharge cylinder body portion 62 detachably coupled, two kinds of The discharge container 50 can be manufactured using a material. Accordingly, the width to select the material of the discharge container 150 is widened, and it is possible to reduce the possibility of cracking over the entire thickness of the discharge container 50 during external impact.

In addition, by dividing the discharge bin support plate 70 into the external discharge bin support plate 71 and the internal discharge bin support plate 72, the discharge bin support plate 70 can be manufactured using two kinds of materials.

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
60, 160: discharge container body 61: external discharge container body
62: internal discharge container body 70, 170: discharge container support plate
71: external discharge cylinder support plate 72: internal discharge cylinder support plate
80, 180: Material processed body

Claims (2)

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 A compression tube formed and installed so that the front opening communicates with the waste outlet, The material processing body is installed in the grinding cylinder and the compression cylinder so as to be coupled to the coaxial and the material flowing through the material inlet in conjunction with the rotation operation of the drive shaft and discharges the workpiece through the juice outlet and the dregs outlet In the juicer having:
The discharge barrel body is formed with a tubular external discharge barrel body formed with an external juice discharge port forming an external section of the juice discharge port and an internal juice discharge port forming an internal section of the juice discharge port and the internal juice discharge port. Juicer, characterized in that it comprises an inner discharge barrel body of the tubular shape coupled to the inside of the outer discharge barrel body to communicate with the outer juice discharge port. The method of claim 1,
The discharge cylinder support plate is formed to extend from the external discharge cylinder body portion to seal one side opening of the external discharge cylinder body portion, and an external discharge cylinder support plate formed with a guide hole in one region, and to seal one side opening of the internal discharge cylinder body portion. And an inner discharge container support plate extending from the inner discharge container body portion and having the waste discharge port formed to communicate with the guide hole.

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