KR200449608Y1 - Knead doughing device - Google Patents

Abstract

The present invention relates to a hopper separation type kneading apparatus, in particular a hopper is installed on the upper front of the body portion of the kneading apparatus, in the hopper separation type dough apparatus comprising a pair of dough screws are installed inside the hopper,
The hopper is separated into an upper cylinder fixed to the upper front surface of the dough body portion and a lower cylinder separated from the upper cylinder, and constitute a coupling means capable of firmly coupling the lower cylinder to the lower side of the upper cylinder,
It characterized in that the front portion of the lower cylinder is provided with a screw separating means for separating the dough screw independently without the lower cylinder from the upper cylinder.
According to the present invention, it is possible to wash the inside of the extrusion means in the state of separating the lower cylinder by separating so that the dough screw when separating the lower cylinder, as well as to clean and use the separated lower cylinder and the dough screw cleanly In addition, the effect of being able to separate and wash the dough screw can be expected even without removing the lower barrel.

Description

Hopper-separable dough device {Knead doughing device}

The present invention relates to a hopper separation type kneading apparatus, and more particularly, to separate the hopper of the kneading apparatus into an upper cylinder fixed to the dough body and a lower cylinder separated from the upper cylinder, and to tightly couple the lower cylinder to the lower side of the upper cylinder. Combination means can be configured, and to disassemble the dough screw when separating the lower cylinder can not only wash the inside of the extrusion means in the state of separating the lower cylinder, but also clean the inside of the separated lower cylinder and dough screw The present invention also relates to a hopper separating type kneading apparatus which can separate and wash the dough screw even without removing the lower container.

1 to 3 show a conventional kneading apparatus,

The kneading apparatus 11 forms a kneading body portion 12 equipped with a drive motor 13 for forward and reverse driving, and the extrusion means 31 so that the kneaded water can come out at the upper center portion of the kneading body portion 12. And kneading the kneading material is formed on the top of the extrusion means 31, the kneading container 21 is combined.

A drive shaft 16 is formed on one side of the drive motor 13, and a drive sprocket 14 coupled to the chain 15 is formed on the drive shaft 16.

The base plate 41 is rotatably coupled to an upper portion of one side of the dough body part 12 to prevent the dough from the extrusion means 31 from falling on the floor, and the base plate 41 is the dough body part 12. It can be formed horizontally or vertically with the upper portion of the dough body portion 12 by the support adjusting portion 42 coupled to one side of the).

A cylindrical extrusion means 31 is formed in the upper center portion of the dough body portion 12.

The extruding means 31 forms an extrusion tube 32 having a discharge port 33 in the longitudinal direction of the dough body portion 12, and has a screw 34 in the inner central portion of the extrusion tube 32. By forming the dough can be out through the extrusion hole 31 by the screw (34).

Meanwhile, the third spur gear 35 is coupled to one side of the screw 34 to connect the chain 15 coupled to the driving sprocket 14 so that the screw 34 is operated when the driving motor 13 is operated. Allow it to rotate.

The dough container 21 having the discharge port 33 is formed on the upper portion of the extrusion means 31 to form a bond.

Outflow hole 23 is formed so that the dough kneaded in the lower central portion of the kneading container 21 can be released to the outside through the extrusion means 31, and the outlet hole (1) in the lower portion of the kneading container 21 23, when opening and closing the dough material to block the outflow hole 23, and when the dough comes out, the opening and closing portion 24 to open the outlet hole 23 to the lower center of the kneading container 21 Form in the part.

The opening and closing part 24 by the operator operates the opening and closing handle 25 to selectively open and close the outflow hole 23,

The opening and closing handle 25 is formed by the hinge (27, 27a) to the support portion 26 formed on one side central portion of the dough container 21 and the support portion 26 formed on one side of the opening and closing portion 31, the hinge ( The opening and closing handle 25 rotates left and right about 27 and 27a.

That is, when the dough material is put into the dough container 21 and kneading, the opening and closing handle 25 is pulled to the left side, the opening and closing handle 25 is moved to the left side around the hinge 27 and the lower portion is The dough material is kneaded by the dough screw 1 by blocking the outlet hole 23 while being moved to the dough container 21 around the hinge 27a.

And when the dough material is kneaded by the dough screw 1, when the dough knob 25 is pushed to the right, the upper portion of the dough handle 25 is moved to the right side around the hinge 27, and the lower portion is the hinge ( The opening and closing part 24 opens the outlet hole 23 while moving to the right with respect to 27a), and the dough comes out through the extrusion means 31.

A pair of dough screws (1) is mounted to knead the dough inside the kneading container (21).

The dough screw (1) forms a fitting rod (3) and the coupling portion (5) at each end of the body portion (2) so as to be mounted long in the longitudinal direction of the kneading barrel (21), respectively.

At least one stepped portion 4 is formed around the fitting rod 3, and the first and second spur gears 28 and 29 having different gear ratios are formed on the fitting rod 3. To form a bond to each other.

A central wing 6 is formed at the center of the body portion 2 of the kneading screw 1, and the central wing 6 is gradually smaller from the center to the side.

Twist the 's' shaped rotary wing 7 so as to form on both side ends of the body portion 2 from the central wing 6, the rotary wing 7 is the center wing (6) Form in opposite directions from each other.

When the dough screw (1) is rotated by the rotary blade (7) is formed extending in the opposite direction about the center wing portion 6 in this way, the dough is formed in the center portion of the dough screw (1) is kneaded will be.

However, in the related art, since the dough screw 1 installed in the dough container 21 is combined so as not to be separated from the dough container 21, a large amount of dough residue is accumulated in the dough container 21. There is a problem that can not be cleaned cleanly inside the dough container 21 due to the dough screw (1) installed in the inside of the dough container (21), and the prior art is extruded dough is discharged There was a problem that can not be used for sanitary use can not wash the inside of the extrusion pipe forming a means.

Therefore, the present invention for solving the above problems separates the hopper of the kneading apparatus into an upper cylinder fixed to the kneading body portion and a lower cylinder separated from the upper cylinder, and coupling means capable of firmly coupling the lower cylinder to the lower side of the upper cylinder. It can be configured to separate the dough screw when separating the lower cylinder can be used to clean the inside of the extrusion means in the state of separating the lower cylinder, as well as to clean and use the separated lower cylinder and the dough screw clean, An object of the present invention is to provide a hopper separation type kneading apparatus capable of separating and washing the dough screw even without removing the lower container.

The present invention for achieving the above object,

In the hopper is installed on the upper front of the body portion of the kneading apparatus, the hopper separation type kneading apparatus comprising a pair of dough screw is installed inside the hopper,

The hopper is separated into an upper cylinder fixed to the upper front surface of the dough body portion and a lower cylinder separated from the upper cylinder, and constitute a coupling means capable of firmly coupling the lower cylinder to the lower side of the upper cylinder,

It characterized in that the front portion of the lower cylinder is provided with a screw separating means for separating the dough screw independently without the lower cylinder from the upper cylinder.

According to the present invention, it is possible to wash the inside of the extrusion means in the state of separating the lower cylinder by separating so that the dough screw when separating the lower cylinder, as well as to clean and use the separated lower cylinder and the dough screw cleanly In addition, the effect of being able to separate and wash the dough screw can be expected even without removing the lower barrel.

1 is a perspective view showing a conventional kneading apparatus.
Figure 2 is a side view showing a conventional kneading apparatus.
Figure 3 is a view showing a state in which the dough screw is installed in the conventional kneading apparatus.
Figure 4 is a perspective view showing a hopper separation type dough apparatus of the present invention.
Figure 5 is an exploded view showing a hopper separation dough apparatus of the present invention.
Figure 6 is a side view showing a hopper detachable dough apparatus of the present invention.
Figure 7 is a plan sectional view showing a hopper detachable dough apparatus of the present invention.

Hereinafter, a preferred embodiment of the present invention with reference to the accompanying drawings, Figures 4 to 7 are as follows.

In the description of the present invention, the same components as in the prior art will be denoted by the same reference numerals to avoid redundant description.

According to the drawings the present invention

In the hopper 400 is installed on the upper surface of the body portion 12 of the kneading apparatus 11, a pair of dough screw 100 is installed inside the hopper 400,

The hopper 400 is separated into an upper cylinder 410 fixed to the upper front surface of the dough body portion 12 and a lower cylinder 420 separated from the upper cylinder 410, and the lower cylinder 420 is separated from the hopper 400. To configure a coupling means that can be firmly coupled to the lower side of the upper cylinder 410,

It is characterized in that the front portion of the lower cylinder 420 is provided with a screw separating means for separating the dough screw 100 independently without the lower cylinder 420 is separated from the upper cylinder 410. .

As the coupling means for coupling the upper cylinder 410 and the lower cylinder 420,

As shown in FIGS. 4 and 5, a plurality of coupling bolts 412 are formed at the bottom of the upper front panel 411 of the upper cylinder 410 to protrude toward the front, and the lower front panel of the lower cylinder 420 ( 421 is formed by forming a bolt hole 422 is coupled to the coupling bolt 412 is fastened to the butterfly nut 423.

In addition, a stepped portion 413 is formed at both lower ends of the upper cylinder 410, and a welded reinforcing bar 414 for strength reinforcement is welded to the stepped part 413, and a plurality of outer sides of the reinforcing bar 414 are provided. Protruding hanger 415,

On both sides of the lower cylinder 420 corresponding to the mounting portion 424 in contact with the reinforcing table 414 is formed to be thicker than the other parts of the lower cylinder 420, the seating portion 424 and the reinforcing table ( The contact area of the 414 is widened so that the sealing ratio is improved during the coupling, and the lower cylinder 420 is bound to the upper cylinder 410 by being elastically hung on the hanger 415 on the side of the seating portion 424. It is configured to install the cicada hook 425 to be.

In addition, a lower coupling piece 426 having a plurality of bolt holes 427 at the rear end of the lower cylinder 420 is formed to extend to a predetermined width, and the bolt hole 427 is formed at the front of the upper end of the dough body portion 12. A plurality of coupling bolts 418 corresponding to the protrusions are formed to be coupled to the butterfly nut 428.

That is, when the lower cylinder 420 is coupled to the upper cylinder 410, bolt holes 427 formed in the lower coupling piece 426 of the lower cylinder 420, as shown in Figure 5 protrudes into the dough body portion 12 The bolt hole 422 perforated in the lower front panel 421 of the lower cylinder 420 protrudes to the bottom of the upper front panel 411 of the upper cylinder 410 while being coupled to be fitted to the coupling bolt 418. After coupling so as to be fitted to the coupling bolt 412 is formed, using the butterfly nut 423, 428 is strongly bound, and the cicada hook 425 is provided on the side surface of the lower cylinder 420, the upper cylinder 410 By elastically walking to the hanger 415 protruding to the side of the), it is to be able to firmly couple the lower cylinder 420 to the upper cylinder 410.

And, the bottom of the lower cylinder 420 is formed with an outlet hole 429, the opening and closing portion for intermittent discharge of the dough kneaded in the hopper 400 to the extrusion pipe forming the lower extrusion means 31 ( 300 is installed to slide back and forth on the bottom of the lower cylinder 420, the opening and closing portion 300 is configured to move in the front and rear direction by the operator by operating the handle 302.

That is, the first support 303 is fixedly installed to protrude in the middle of the lower front panel 421, the second support 304 is protruded to the front of the opening and closing part 300, and the handle 302 is hinged. 305 is coupled to the first support 303 and the second support 304, the operator pushes and pulls the handle 302 in the front and rear direction, the opening and closing portion 300 is moved back and forth, the opening and closing portion 300 A hole having the same size as the outlet hole 429 is formed in the middle portion of the.

Meanwhile, the dough kneaded in the hopper 400 is discharged to the extrusion pipe of the extrusion means 31 through the outlet hole 429 formed in the bottom of the lower cylinder 420 at the bottom of the lower cylinder 420. Guide 301 is formed integrally to guide the forward and backward movement of the opening and closing part 300 to control the opening and closing part 300 when the lower cylinder 420 is separated from the upper cylinder 410 by the guide 301. ) Was stably separated with the lower cylinder 420.

In the present invention, the lower cylinder 420 is configured to separate the shaft screw means for separating the dough screw 100 even in a state in which the upper cylinder 410 is not separated.

To this end, as shown in Figure 7 is installed on the upper end of the body portion 12 so that the rotary shaft 210 is rotated by receiving the rotational power of the drive motor 13 so that the front end is exposed to the inside of the hopper 400 ,

Protruding and forming a locking projection 211 on the front end of the rotary shaft 210,

The kneading screw 100 is formed by concave forming the shaft coupling groove 105 in which the rotating shaft 210 is fitted into the first end 103 formed on one side of the body portion 101 provided with the dough blade 102, this shaft On the inner circumferential surface of the coupling groove 105 forms a locking groove 106 into which the locking protrusion 211 is fitted.

The second end 104 formed on the other side of the body portion 101 is formed so that the dough screw 100 can be separated by protruding the fitting shaft 108 is fitted to the shaft support 430 is coupled.

In addition, while forming a plurality of coupling bolts 433 protruding the front coupling piece 432 protruding outward in the front outer portion of the lower cylinder 420, the dough screw 100 in the lower front panel 421 of the lower cylinder 420 Supporting hole provided with a screw support hole 430 that is drilled through the screw extraction hole 431 of the size that can be pulled out, the fitting shaft 108 is fitted into the screw extraction hole 431 A panel 434 is provided, and the support panel 434 is formed by using a butterfly nut 436 by drilling a plurality of bolt holes 435 into which the coupling bolt 433 is fitted to the outside of the support panel 434. ) Is detachably coupled to the lower front panel 421.

When the support panel 434 in which the shaft support 430 is installed is coupled to the lower front panel 421 by using the butterfly nut 436, the shaft support 430 is screwed out as shown in FIG. 7. While being fitted in the fitting shaft 108 of the dough screw 100 is fitted into the fitting groove of the shaft support 430, the shaft support 430 is to support the dough screw 100.

Accordingly, in the present invention, even if the lower cylinder 420 is not separated from the upper cylinder 410, the dough screw 100 can be separated and washed.

That is, when the support nut panel 434 is removed from the lower front panel 421 by releasing the butterfly nut 436, the shaft support 430 and the fitting shaft 108 are naturally separated, and at this time, the dough screw 100 To be withdrawn through the screw withdrawal hole 431.

Meanwhile, in the present invention, the second support 304 connecting the handle 302 and the opening and closing part 300 protrudes downward from the support panel 434 so that the second support 304 interferes with the support panel 434. In addition, the opening and closing portion 300 is preferably immersed into the lower cylinder 420 so as not to hit the support panel 434 when the maximum advance.

In addition, reference numeral 500 denotes a time switch capable of controlling the operation of the kneader. When the user sets a desired time by turning the time switch, the power is automatically supplied to the motor and the dough screw 100 operates to knead. To start, the time switch 500 counts all the set time, the power is automatically cut off and the dough operation is stopped.

When the dough time is set using the time switch 500, the operator operates the time switch 500 so that the dough machine operates for the set time, thus preventing the dough dough occurring by operating the dough machine for too long. Will be.

According to the present invention as described above, when the lower cylinder 420 is separated from the upper cylinder 410, the lower extrusion means 31 is exposed as it is to clean the inside of the extrusion pipe forming the extrusion means 31 cleanly. Also, since the lower cylinder 420 is separated, so that the dough screw 100 can be separated, the lower cylinder 420 and the inside of the dough screw 100 can be washed in a separated state, and the hopper 400 as a whole. It can be expected that the effect that can be used to clean clean at regular intervals.

In addition, the present invention can be separated from the dough screw 100 even in the state that does not remove the lower cylinder 420 can be expected to the effect that can be more conveniently washed inside the hopper (400).

100: dough screw, 101: body portion,
102: dough blade, 103: first end,
104: second end, 105: shaft coupling groove,
106: locking groove, 108: fitting shaft,
211: locking projection, 300: opening and closing portion,
301: guide, 302 handle,
303: first support, 304: second support,
305: hinge, 400: hopper,
410: upper cylinder, 411: upper front panel,
412: coupling bolt, 413: stepped portion,
414: reinforcement, 415: hanger,
416: upper engagement piece, 417: cover,
420: lower barrel, 421: lower front panel,
422: bolt, 423: butterfly nut,
424: rest area, 425: cicada hanger,
426: lower coupling piece, 427: bolt hole,
429: outflow hole, 430: shaft support,
500: time switch,

Claims (4)

In the hopper 400 is installed on the upper surface of the body portion 12 of the kneading apparatus 11, a pair of dough screw 100 is installed inside the hopper 400,
The hopper 400 is separated into an upper cylinder 410 fixed to the upper front surface of the dough body portion 12 and a lower cylinder 420 separated from the upper cylinder 410, and the lower cylinder 420 is separated from the hopper 400. To configure a coupling means that can be firmly coupled to the lower side of the upper cylinder 410,
In the front portion of the lower cylinder 420, even if the lower cylinder 420 is not separated from the upper cylinder 410 is provided with a screw separating means for separating the dough screw 100 independently,
The bottom portion of the lower cylinder 420 is intermittent that the dough kneaded in the hopper 400 is discharged to the extrusion pipe of the extrusion means 31 through the outlet hole 429 formed in the lower surface of the lower cylinder 420. The guide 301 is formed integrally to guide the forward and backward movement of the opening and closing portion 300 to the hopper, characterized in that the opening and closing portion 300 is configured to be stably separated with the lower cylinder 420 when the lower cylinder 420 is separated. Detachable dough machine.
The method of claim 1, wherein as the coupling means,
A plurality of coupling bolts 412 are formed at the bottom of the upper front panel 411 of the upper cylinder 410 to protrude toward the front side, and the coupling bolt 412 is disposed on the lower front panel 421 of the lower cylinder 420. It is formed by forming a bolt hole 422 is inserted into the butterfly nut 423,
Stepped portions 413 are formed at both lower ends of the upper cylinder 410, and welded reinforcing bars 414 for strength reinforcement are formed on the stepped portions 413, and a plurality of hooks (outside the reinforcing bars 414) are provided. 415 is formed to protrude, and both sides of the lower cylinder 420 is formed with a seating portion 424 in surface contact with the reinforcing bar 414, the side of the seating portion 424 resilient to the hanger 415 It is configured by installing the cicada hook 425 to be hooked to the lower cylinder 420 to the upper cylinder 410,
The lower coupling piece 426 having a plurality of bolt holes 427 at the rear end of the lower cylinder 420 is formed to extend to a predetermined width, and the bolt hole 427 is formed on the front surface of the upper end of the dough body portion 12. Hopper separation type dough apparatus, characterized in that configured to be coupled to the butterfly nut 428 by projecting a plurality of coupling bolts 418 corresponding.
delete The method of claim 1,
The screw separating means,
The front end of the body portion 12 is installed so that the front end of the rotating shaft 210 is rotated by receiving the rotational power of the drive motor 13 exposed inside the hopper 400,
Protruding and forming a locking projection 211 on the front end of the rotary shaft 210,
The kneading screw 100 is formed by concave forming the shaft coupling groove 105 in which the rotating shaft 210 is fitted into the first end 103 formed on one side of the body portion 101 provided with the dough blade 102, this shaft The locking groove 106 is formed on the inner circumferential surface of the coupling groove 105, and the fitting shaft 108 is protruded from the second end 104 formed on the other side of the body portion 101. and,
The dough screw 100 is drawn out to the lower front panel 421 of the lower cylinder 420 while protruding outwardly the front coupling piece 432 having a plurality of coupling bolts 433 protruding from the front outer surface of the lower cylinder 420. A support panel provided with a shaft support hole 430 fitted to the screw extraction hole 431 while having a fitting groove into which the fitting shaft 108 is inserted, and having a size that can be drilled. 434, and the support panel 434 by using a butterfly nut (436) by drilling a plurality of bolt holes (435) in which the coupling bolt 433 is fitted to the outside of the support panel (434). Hopper separate kneading device, characterized in that configured to be detachably coupled to the lower front panel (421).

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