KR20080106720A - Rice refrigerator - Google Patents

Abstract

A refrigerator for rice is provided to prevent cool air inside the housing from being flown out and to maintain a whole rice container at low temperature. A refrigerator for rice contains a housing(100), a rice container(200) inside the housing and an output unit(600) installed at the rice container and sending the rice out. The output unit contains an output roller of which an outer circumference has grooves, a shaft(620) axis-linked to the output roller and a controlling part including a dial knob(610) connected to the shaft. A penetration hole for inserting the controlling part is formed in the housing.

Description

Rice refrigerator {Rice refrigerator}

1 is a cross-sectional view of a conventional dispensing means.

Figure 2 is a side cross-sectional view of the rice refrigerator in accordance with a preferred embodiment of the present invention.

Figure 3 is a front view of the rice refrigerator according to a preferred embodiment of the present invention.

4 is a side cross-sectional view of the rice container.

5 is a sectional view of a rice barrel.

6 is an exploded perspective view of the dispensing means.

7 is an exploded perspective view of the dispensing means.

8 is a sectional front view of the dispensing means.

9 is a side cross-sectional view of the dispensing means;

10 is a perspective view of the rice refrigerator.

** Description of symbols for the main parts of the drawing **

100: housing 101: upper space

102: lower space 103: outer case

104: inner case 105: insulation

106: bulkhead 107: jamming jaw

110: support means 111: mounting portion

112: support 120: upper door

121: hinge member 122: gasket

130: front panel 131: knob bracket

132: locking jaw 133: through hole

140: joint 141: flange

150: communication hole 151: cold air circulation

160: support bracket 161: inner groove

162: inner protrusion 163: inner wall

200: rice container 210: coupling groove

221, 222: slope

230: outlet

231: open groove 232: slope

233: groove 300: drawer

310: side wall 320: bottom surface

321: settling groove 322: groove

323: split protrusion 330a: rice tray

330a: grain storage 331: guide slope

332: bend 333: groove

340: guide rail 400: drawout door

410: handle 420: gasket

500: connector 510: gear insertion hole

520: inserting rice barrel 521: guide slope

522: hanger groove 530: buffer member

540: discharge guide 541: bend

542: seating groove 543: slope

550: roller insertion hole 551: cutting groove

552: inner groove 600: discharge means

610: dial knob 620: shaft

630: upper gear 631: torsion spring

632: first bent part 633: second bent part

634: incision 640: lower gear

650: discharge roller 651: polygon groove

652: through hole 653: first locking projection

654: second jamming projection 655: home

656: guide protrusion 657: open groove

Korean Registered Room No. 313073

The present invention relates to a rice refrigerator, and in particular, the dispensing means includes a dispensing roller having a groove formed on the outer circumferential surface, a shaft including a shaft pivoted on the dispensing roller and a dial knob connected to the shaft, wherein the housing includes: A through hole into which the adjusting part is inserted is formed, and the space between the housing and the dial knob is minimized, and relates to a rice refrigerator that can prevent cold air from flowing out of the housing.

Conventional rice refrigerators are those presented in Korean Registered Room No. 313073.

In general, as shown in Figure 1, the input cover is configured in the rice inlet to the top of the rice container so that the rice (P) can be stored and put in the transparent window as a front portion to check the amount of stored rice (P) One or more discharge levers 31 for discharging the rice P by a predetermined amount are configured to discharge as much rice as desired and to extract the discharged rice using the pedestal 14.

In order to maintain the temperature of the low temperature in the rice barrel configured as described above is to be able to maintain the desired constant temperature at all times by mounting the rice barrel in the case (B).

The door is opened in front of the case as a whole, so there is an advantage that you can easily use the rice barrel while maintaining the temperature at all times.

If the side cross-section of the rice barrel is described in more detail, there is an inlet for injecting rice into the upper portion, and an inlet cover for covering the inlet is configured to easily inject rice.

It can be seen that the input cover configured as described above is a structure that can be opened and closed in a state that is not completely separated from the rice container.

The amount of rice (P) in the rice container can be grasped to the bottom of the inlet cover and the see-through window (13) made of a transparent material is made of a front part so that the inside of the rice can be seen.

In addition, by forming a discharge lever 31 that moves up and down to discharge the rice (P), when the lever is lowered to the bottom, the rice outlet inside the rice barrel is opened and falls to the pedestal 14, which is already composed of rice. You can discharge as much rice as you want.

The discharge lever 31 is discharged as much as a certain amount of rice (P) by one operation to the bottom and moved to the upper again by the action of the spring 32 to operate again by the desired amount to discharge the rice. .

The rice pedestal 14 has a structure that can be taken out completely separated from the rice container, so that the rice (P) is discharged to the discharge port so that the rice in the discharge container 34 is contained in the pedestal 14, 14 It has a structure that can be moved with.

Wrap the outside of the rice container with the case (B), configure the cooling device room in the rear and rear side inside the case (B), and configure the compressor in place, connect the cooling coil to the refrigerant pipe, and the connected cooling coil is connected to the outside of the rice container. It has a wrapping structure to keep the whole rice container at low temperature.

In addition, since the case surrounding the rice container and the outside is integrated, there is no need for a separate assembly or fastening method, so there is an advantage that it can be used conveniently, and the door can be opened and closed by the front part of the case.

As described above, the cooling coil connected to the compressor is woven in several strands, and thus, it is understood that the cooling coil is wrapped around the outside with a smaller structure and has a simpler structure.

And the cooling action of the above-mentioned cooling device is a reference to the method of cooling by the action of the compressor and the cooling coil by connecting a power source known in the art.

In detail, the discharge device unit 30 is enlarged, and the discharge lever 31 and the spring 32 are connected to each other, so that when the lowering lever 31 is lowered once, the discharge device 30 is increased by the force of the spring 32 again.

When the discharge lever 31 is lowered, the guide barrel 33 rotates about the central axis 36 while being in contact with the guide lever 33, and the discharge container 34 is driven by the force of the guide lever 33 that is already configured. As it is advanced, the rice P contained in the discharge container 34 is discharged to the base 14 through the discharge port a 35.

When the above operation is made, the discharge lever 31 is raised again by the force of the spring 32 and the guide lever 33 is returned to its original position, so that the discharge cylinder 34 is also moved to the original position, thereby making one cycle. You lose.

However, when the conventional rice discharging device is applied to a rice refrigerator, a space is formed between the discharge lever 31 and the housing because a space for lowering the discharge lever 31 is required. Therefore, there is a problem in that cool air inside the housing is discharged to the outside to consume a lot of power.

 The present invention has been made in order to solve the above-mentioned problem, the dispensing means includes a dispensing roller having a groove formed on the outer circumferential surface, a shaft including a shaft shaft coupled to the dispensing roller and a dial knob connected to the shaft, The through-hole is formed in the housing is inserted into the adjusting portion, the space between the housing and the dial knob is minimized to provide a rice refrigerator that can prevent the cool air inside the housing outflow.

The rice refrigerator of the present invention for achieving the above object, comprises a housing, a rice barrel disposed inside the housing, and a discharge means installed in the rice barrel for discharging rice, the dispensing means is a groove on the outer peripheral surface And a control unit including a discharge roller formed therein, a shaft connected to the discharge roller, and a dial knob connected to the shaft, wherein the housing is formed with a through hole into which the control unit is inserted.

According to this configuration, there is an advantage that the space between the housing and the dial knob is minimized to prevent the cool air inside the housing from leaking out.

The housing includes an outer case, an inner case disposed inside the outer case, and a joint inserted into the through hole to connect the inner case to the outer case, wherein the joint is formed with an insertion hole into which the adjustment part is inserted. It is possible to connect the inner case and the outer case through the joint and at the same time serve to guide the control unit.

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

For reference, among the configurations of the present invention to be described below, the same configuration as the prior art will be referred to the above-described prior art, and a detailed description thereof will be omitted.

2 is a side cross-sectional view of a rice refrigerator according to a preferred embodiment of the present invention, FIG. 3 is a front view of a rice refrigerator according to a preferred embodiment of the present invention, FIG. 4 is a side cross-sectional view of a rice barrel, and FIG. 6 is an exploded perspective view of the dispensing means, FIG. 7 is a disassembled perspective view of the discharging means, FIG. 8 is a sectional front view of the dispensing means, FIG. 9 is a side cross-sectional view of the dispensing means, and FIG. 10 is a perspective view of a rice refrigerator.

As shown in Figure 2 to 10, the rice refrigerator of the present embodiment, the housing 100, the storage space is formed, the rice barrel 200 is disposed in the storage space, and the rice out of the rice barrel 200 A discharging means 600, a drawer door 400 disposed under the housing 100 to open and close the storage space, and a gasket 420 disposed between the drawer door 400 and the housing 100. It is made, including.

The housing 100 includes an outer case 103 and an inner case 104 disposed inside the outer case 103.

A locking jaw 107 is formed at the top of the inner case 104.

The heat insulating material 105 is filled between the outer case 103 and the inner case 104.

The front panel 130 is spaced apart from the outer case 103 at the front of the outer case 103.

The through hole is formed in the front of the housing 100 is inserted into the control unit of the discharge means (600).

Therefore, the through hole is formed through the inner case 104, the heat insulating material 105, the outer case 103, the front panel 130.

In addition, the joint 140 is inserted into the through hole and connects the inner case 104 to the outer case 103.

Meanwhile, in order to maximize the sealing effect, a sealing member may be disposed between the control unit and the joint 140 of the housing 100, or a sealing member may be disposed between the front panel 130 and the control unit.

The joint 140 is formed in a tubular shape, and an insertion hole 142 into which the shaft 620 of the adjusting unit is inserted is formed, and flanges 141 are formed at both ends thereof.

Two flanges 141 are formed with a plurality of fastening holes for fastening bolts are coupled to the inner case 104 and the outer case 103, respectively.

The inner case 104 and the outer case 103 may be connected to each other through the joint 140 to guide the control unit.

On the inner wall of the housing 100, the support means 110 for supporting the rice container 200 is formed.

The support means 110 includes an installation part 111 that is bolted to the inner case 104 of the housing 100, and a support part 112 that is bent under the installation part 111.

The support means 110 is installed on the inner surface of each of the inner case 104, a total of four are installed, each is installed at a different height according to the shape of the rice tub (200).

In this way, the support means 110 may be provided to affect the discharging means 600 for discharging rice by the weight of the rice container 200 to prevent the discharging means 600 from being deformed.

In addition, since the inner wall of the housing 100 itself does not have to be molded in accordance with the shape of the rice container 200 due to the support means 110, the manufacturing of the device is facilitated, and space is provided in the inner wall of the rice container 200 and the housing 100. Is formed there is an advantage that the cold air can be evenly transmitted throughout the rice tub (200).

A machine room is formed at the lower rear of the housing 100.

A housing space is formed in the inner case 104 of the housing 100, and a partition 106 is provided to divide the storage space into an upper space 101 and a lower space 102.

The upper space 101 is formed to open the upper portion, the lower space 102 is formed to open the front.

The lower space 102 is formed in front of the machine room and the upper part of the machine room.

The partition wall 106 is disposed horizontally, the communication hole 150 is formed through the partition wall 106 so that the upper space 101 and the lower space 102 communicate with each other.

As such, the partition wall 106 is provided so that the lower space 102 is frequently opened and closed for rice extraction, thereby minimizing cold air leakage and external air inflow of the upper space 101.

In addition, the communication hole 150, the inner wall is provided with a support bracket 160 along the entire circumference.

The support bracket 160 is formed in a ring shape and disposed in the vertical direction.

The support bracket 160 is bent around the upper end and bolted to the inner case 104.

In addition, the inner side of the support bracket 160, the inner groove 161 is formed along the circumference, so that when the condensation occurs in the upper space 101, the condensation water can be collected in the inner groove 161 without falling down. . Therefore, it is possible to prevent the condensed water falls on the rice to be discharged.

The support bracket 160 has an inner protrusion 162 formed inside the inner groove 161, and an inner wall 163 is formed inside the inner protrusion 162 in the vertical direction.

The upper portion of the housing 100 is formed to be opened, and the upper door 120 is opened to open and close the upper space 101 of the accommodating space.

The upper door 120 is rotatably mounted to the housing 100 by the hinge member 121 and is formed in a quadrangular shape.

In addition, the hinge member 121 is provided with a cam (not shown) and a spring (not shown), such as a folding cell phone can be automatically opened or closed when the user rotates a certain angle.

A gasket 122 may be disposed between the upper door 120 and the housing 100 to prevent cold air from being discharged through the upper door 120.

The cooling device (not shown) is disposed in the machine room formed at the rear lower portion of the housing 100 to cool the rice container 400.

As such, the cooling device 400 may be spaced apart from the upper space 101 to cool, thereby preventing the heat generated from the cooling device 400 from affecting the cooling.

Furthermore, a wheel is installed at the bottom of the housing 100, so that the user can easily change the position of the rice refrigerator.

The rice container 200 is disposed in the upper space 101 of the storage space.

The rice container 200 is formed to have an upper portion including a bottom surface on which sidewalls and a plurality of discharge holes 230 are formed.

The side wall is formed to be inclined so that a space is formed between the inner case 104 of the housing 100, so that all parts of the rice container 200 can be cooled evenly.

In addition, a flange that is caught by the locking jaw 107 is formed at the upper end of the side wall. As described above, the flange is formed so that the rice container 200 can be stably disposed in the housing 100.

The bottom surface is formed to be inclined to face the discharge port 230, the inclined surfaces 221, 222 are formed on the left and rear sides of the rice container 200, respectively. Therefore, the rice container 200 is formed so that the cross-sectional area is smaller toward the discharge port 230.

In addition, the discharge port 230 guides the rice to protrude in a tubular shape on the bottom surface.

Two discharge ports 230 are formed, and an insertion groove 233 is formed between each discharge port 230.

As described above, a plurality of discharge ports 230 are provided so that one discharge port 230 can be discharged only for one person and another discharge port 230 can be discharged only for two people. Can be adjusted.

The upper portion of the insertion groove 233 is formed so that the space becomes smaller toward the top.

On both sides of the lower end of the discharge port 230, the inclined surface 232 is formed to guide the discharged rice more effectively.

In addition, opening grooves 231 are formed in the front and rear surfaces of the discharge port 230, respectively.

Due to the open groove 231 is not interfered by the shaft 620 when the outlet 230 is inserted into the connector 500.

The connector 500 has a discharge roller 650 of the discharge means 600 is installed therein to connect the discharge means 600 and the discharge port 230.

The connector 500 and the discharge port 230 are the discharge port 230 is inserted into the connector 500, the upper portion of the connector 500 is inserted into the insertion groove 233 is connected to each other.

As such, by inserting the connector 500 into the insertion groove 233, there is an advantage that the rice barrel 200 and the discharge roller 650 of the discharge means 600 is coupled to facilitate assembly.

The connector 500 has a rice barrel insertion hole 520 is formed in the upper portion, the rice barrel insertion hole 520 is formed to correspond to the shape of the discharge port 230.

Therefore, guide inclined surfaces 521 are formed at both sides of the bottom of the rice barrel insertion hole 520, respectively.

In addition, in order to prevent the connector 500 from being impacted by the weight of the rice when the rice container 200 is coupled to the connector 500, a shock absorbing member 530 such as a sponge is installed on the guide inclined surface 521. . Therefore, the worm member 530 is disposed between the guide inclined surface 521 and the inclined surface 232.

A through hole is formed in front of the rice container insertion hole 520 of the connector 500 to insert the shaft 620.

A roller insertion hole 550 is formed below the connector 500, and the roller insertion hole 550 is formed to correspond to the shape of the discharge roller 650 and is formed to communicate with the rice barrel insertion hole 520.

A cutting groove 551 is formed at the side of the roller insertion hole 550 so that the discharge roller 650 may be inserted into the roller insertion hole 550.

In addition, the inner groove 552 is formed on the inner upper side of the incision groove 551.

Due to the inner groove 552, the rice can be effectively introduced into the discharge roller 650 from the discharge port 230.

The roller insertion hole 550 and the rice barrel insertion hole 520 in the connector 500, the gear insertion hole 510 is formed in the vertical direction.

The connector 500 is formed so that the lower part of the gear insertion hole 510 is opened to facilitate the assembly of the gear.

In the inner wall of the gear insertion hole 510, the hook protrusion 522 is formed to protrude from the gear insertion hole 510 and the rice barrel insertion hole 520.

In addition, a through hole penetrating through the gear insertion hole 510 and the roller insertion hole 550 is formed in the connector 500 to insert the rotation shaft of the discharge roller 650. Due to such a through hole it is possible to maintain a state that is stably coupled to the connector 500 even after the ejection roller 650 is inserted through the cutting groove 551. Therefore, there is an advantage that the assembly of the connector 500 and the discharge roller 650 is easy.

In addition, the front and rear lengths of the connector 500 and the discharge roller 650 of the discharge means 600 is formed to be smaller than the front and rear length of the communication hole 150, the cold air circulation hole between the rear of the connector 500 and the partition 106 ( 151 is formed.

Due to the cold air circulation hole 151, not only the upper space 101 but also the lower space 102 may be cooled.

Further, a discharge guide 540 is installed below the connector 500.

The discharge guide 540 is bent portion 541 is formed on both sides of the upper end, a mounting groove 542 is formed on the upper portion, the connector 500 can be seated, the inclined surface 543 is formed on the right and rear sides and discharged Guide the rice being.

Bolting to the inner case 104 via the bent portion 541.

In addition, the height of the lower end of the discharge guide 540 is formed to be lower than the lower height of the partition 106.

The dispensing means 600 is installed in the rice container 200 through the connector 500 to discharge the rice of the rice container 200.

The dispensing means 600 includes a dispensing roller 650 having a groove 655 formed on an outer circumferential surface thereof, a shaft 620 coupled to the dispensing roller 650, and a dial knob 610 connected to the shaft 620. It includes an adjusting unit.

The discharge roller 650 is formed in a drum shape and is rotatably disposed in the roller insertion hole 550.

The groove 655 is formed long in the forwarding roller 650 along the front-back direction, and the amount of rice discharged at the time of the rotation of the discharge roller 650 once is adjusted according to the size of the groove 655.

In the present invention, two dispensing rollers 650 are provided, and the size of the grooves 655 of the dispensing rollers 650 may be different from each other so that the user can adjust the amount of the dispensing per rotation according to the situation.

In addition, a guide protrusion 656 is formed to protrude inside one of the two discharge rollers 650 and an open groove 657 is formed at the end of the guide protrusion 656.

The first catching protrusion 653 and the second catching protrusion 654 are formed on the front or rear outer circumferential surface of the discharge roller 650, respectively.

The first locking projection 653 and the second locking projection 654 are formed on a surface of the groove 655 opposite to the opening.

The first locking protrusion 653 and the second locking protrusion 654 are inserted into the cutting groove 551 and caught by the roller insertion hole 550.

The first locking projection 653 limits the maximum rotation angle when the discharge roller 650 rotates when the rice is discharged, and the second locking projection 654 limits the maximum rotation angle when the discharge roller 650 returns.

A polygonal groove 651 is formed in front of the discharge roller 650 to be connected to the control unit and the shaft.

In addition, the discharge roller 650 is formed with a through hole 652 is inserted into the rotating shaft to communicate with the polygonal groove 651.

Furthermore, the dispensing means 600 includes a gear connecting the dispensing roller 650 and the shaft 620.

The gear includes a lower gear 640 including protrusions inserted into the polygonal groove 651 of the discharge roller 650, and an upper gear 630 disposed on the lower gear 640 to be engaged with the lower gear 640. ).

The through shaft is formed in the lower gear 640 so that the rotation shaft of the discharge roller 650 passes through the lower gear 640.

The torsion spring 631 is installed in the upper gear 630 so that when the user rotates the discharge roller 650 once, the position of the discharge roller 650 is returned to the initial position.

The torsion spring 631 includes a coil part, a first bent part 632 formed in an annular shape on one end of the coil part, and a second bent part 633 formed in an annular shape on the other end of the coil part.

The coil part is fitted to the pivot shaft of the upper gear 630 and the second bent part 633 is fitted to the hook protrusion 522.

The upper gear 630 has a cutout 634 formed at an upper portion thereof, such that the first bent portion 632 of the torsion spring 631 may be easily fitted to the upper gear 630.

In this way, the torsion spring 631 is fixed to the connector 500 at one end and the other end is fixed to the upper gear 630 so that the position of the upper gear 630 is returned when the user does not apply force.

The shaft 620 is axially coupled to the upper gear 630 and is inserted into the through hole of the housing 100 through the insertion hole 142 of the joint 140.

The dial knob 610 is shaft-connected at the end of the shaft 620, the through-hole of the housing 100.

The dial knob 610 is formed in a circular shape, a groove is formed on the outer circumferential surface to prevent slipping.

In addition, the knob bracket 131 is disposed between the front panel 130 and the outer case 103 so that the dial knob 610 can be stably installed in the housing 100.

The knob bracket 131 is installed in a plate shape in a vertical direction, and has a through hole 133 into which a shaft 620 is inserted, and a seating groove 132 through which the dial knob 610 can be mounted is a through hole ( 133).

The dial knob 610 is able to discharge rice manually by simply rotating in the state inserted into the through hole of the housing 100, so that the knob to discharge the rice while minimizing the power consumption of the rice refrigerator Since there is no space for moving the space between the housing 100 and the dial knob 610 is minimized to prevent the cold air from flowing out of the housing 100 to the outside.

The withdrawal door 400 is disposed below the front of the housing 100 to open and close the lower space 102 of the storage space.

A handle 410 is formed to protrude from the front of the drawer door 400. The handle 410 is formed in the left and right directions, the handle 410 is formed through the long hole through which the finger can be inserted.

On the other hand, the drawer door 400 is formed to be inclined to the rear surface of the drawer door 400 so that the thickness becomes thinner toward the lower side. When the withdrawal door 400 is formed in this way, the load on the upper side of the withdrawal door 400 increases, so that the withdrawal door 400 and the housing 100 come into close contact with each other by the weight of the withdrawal door 400.

On the back of the drawer door 400, a fitting groove is formed along the edge of the drawer door 400.

The gasket 420 is disposed between the drawer door 400 and the housing 100.

The gasket 420 is formed to correspond to the shape of the fitting groove of the drawer door 400.

The gasket 420 is formed to protrude a fitting hook inserted into the fitting groove on the front surface.

The gasket 420 and the drawer door 400 are fastened by fitting grooves and fitting hooks.

The gasket 420 can be easily withdrawn from the rice at the same time effectively prevent the leakage of cold air.

In addition, the gasket 420 is provided with an installation groove or installation hole for installing a magnet (not shown), the housing 100 is formed of an iron material or a magnetic material that can be attached to the magnet.

As such, the withdrawal door 400 and the housing 100 are coupled by a magnetic force, and if the withdrawal door 400 is close to the housing 100 even if the user does not accidentally close the withdrawal door 400 completely. By being in close contact with each other, cold air can be more effectively prevented.

The drawer 300 is installed in the drawer door 400, and the drawer 300 is disposed in the lower space 102.

The drawer 300 includes a bottom surface and a side wall, and a seating groove 321 in which the drawer container is mounted is formed on the bottom surface.

In addition, the drawer 300 has a groove 322 formed on the bottom to be disposed inside the seating groove 321.

As described above, the groove 322 is formed, so that cold air may stay in the groove 322, and thus cooling may be effectively performed between the drawer 300 and the bottom of the take-out container.

In addition, the split protrusion 323 is formed in the front and rear directions in the seating groove 321 in the case where a plurality of takeout containers are provided.

The drawer 300 is provided with a guide rail 340 to be slidable with respect to the housing 100.

The guide rail 340 is installed on the top of the drawer 300, is formed longer than the front and rear length of the drawer 300 is also disposed on the upper machine room.

Thus, the guide rail 340 is formed longer than the drawer 300, there is an advantage that can be stably guided even after the drawer 300 is completely withdrawn from the housing 100.

Since the structure of such a guide rail 340 has been presented in Korean Publication No. 20-1995-0008339, the details will be referred to.

In the drawer 150, a withdrawal container is disposed to easily withdraw the rice away from the rice container 400 to the outside.

The withdrawal container includes a rice tray 330a which is disposed under the dispensing means 600 which is eccentrically disposed and receives the rice discharged from the dispensing means 600 and the grain storage container 330b in which the grains are stored.

As described above, a plurality of takeout containers are provided to cool the rice in the rice container 200, and at the same time, there is an advantage in that other items such as grains are also kept fresh.

The drawer vessel has a guide inclined surface 331 formed at an upper end of the remaining sidewall except for the left sidewall (sidewall with the adjacent drawer vessel). The rice discharged through the guide inclined surface 331 is effectively inserted into the take-out container without being separated to another place, and there is an advantage that the rice or grains in the take-out container can be easily transferred to another container.

The bent portion 332 is vertically formed in the upper and lower directions of the guide slope surface 331.

In addition, a groove 333 is formed on a bottom surface of the bottom of the takeout container so as to correspond to the groove 322, so that cold air may stay.

Further, the take-out container is disposed between the side wall of the take-out container and the side wall of the drawer 300 to form a space.

The operation of this embodiment having the above-described configuration will be described below.

The rice barrel 200 is inserted into the housing 100 to support the rice barrel 200 by the supporting means 110 by inserting the supporting means 110 into the coupling groove 210.

In addition, in the process of inserting the rice container 200 into the housing 100, the outlet 230 is inserted into the rice container insertion hole 520 of the connector 500, and at the same time, the upper portion of the connector 500 is inserted into the insertion groove 233. Put the rice barrel 200 and the dispensing means 600 is connected.

Subsequently, when the user withdraws the rice, when the dial knob 610 is rotated, the shaft 620 is also rotated so that the upper gear 630, the lower gear 640, and the discharge roller 650 are interlocked.

When the discharge roller 650 is rotated, the groove 655 is directed downward, and is discharged to the rice tray 330a by the discharge guide 540.

On the other hand, when the user rotates the dial knob 610 and then removes the force applied to the dial knob 610, the upper gear 630 and the lower gear 640 by the torsion spring 631 is rotated by the user direction Is rotated in the opposite direction.

Therefore, the discharge roller 650 also rotates in the opposite direction so that the groove 655 and the discharge port 230 communicate with each other so that the rice of the discharge port 230 flows into the groove 655 and the rice is discharged into the discharge roller 650. Will be filled.

The dispensed rice is drawn out by the user holding the handle 410 and withdraw the drawer door 400 and the drawer 300, the drawer 300 is withdrawn along the guide rail (340).

When the user withdraws the rice and pushes the withdrawal door 400 and the drawer, the gasket 420 is disposed between the withdrawal door 400 and the housing 100 to maximize the sealing effect to minimize the leakage of cold air. have.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified or modified within the scope of the invention without departing from the spirit and scope of the invention described in the claims below. It can be modified.

According to the rice refrigerator of the present invention as described above, there are the following effects.

The dispensing means includes a dispensing roller including a dispensing roller having a groove formed on an outer circumferential surface, a shaft shaft-joined to the dispensing roller, and a dial knob connected to the shaft, and a through hole into which the adjusting portion is inserted is formed in the housing. The space between the dial knob and the dial can be minimized to prevent cold air from leaking out of the housing.

The housing includes an outer case, an inner case disposed inside the outer case, and a joint inserted into the through hole to connect the inner case to the outer case, wherein the joint is formed with an insertion hole into which the adjustment part is inserted. It is possible to connect the inner case and the outer case through the joint and at the same time serve to guide the control unit.

Claims (2)

housing; A rice barrel disposed inside the housing; Installed in the rice barrel is made to include a discharging means for discharging rice, The dispensing means includes an adjusting roller including a dispensing roller having a groove formed on an outer circumferential surface thereof, a shaft connected to the dispensing roller, and a dial knob connected to the shaft. The housing is a rice refrigerator, characterized in that the through-hole is formed is inserted into the control unit. The method of claim 1, The housing includes an outer case, an inner case disposed inside the outer case, a joint inserted into the through hole to connect the inner case to the outer case, The rice refrigerator, characterized in that the joint is formed in the insertion hole is inserted into the control unit.

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