CN219889828U - Ice making box turnover mechanism of ice making machine - Google Patents

Abstract

The utility model discloses an ice making box turnover mechanism of an ice maker, which comprises an ice making machine shell, an ice making box and a motor, and is characterized in that the motor is fixedly arranged at one end of the ice making machine shell, the ice making box is arranged in the ice making machine shell, the ice making box and the ice making machine shell can rotate relatively, and one end of the ice making box is connected with a motor shaft of the motor. The ice making box turnover mechanism of the ice making machine disclosed by the utility model has the advantages that the motor is convenient to install and position, and screws are not needed. The motor can automatically turn over according to the signal, and the motor stops working according to the rotation, the blocking rotation, the reverse rotation, the blocking rotation and the blocking rotation in each action process. The motor spline is different from the traditional D-shaped structure, adopts a waist-shaped double-flat-position positioning structure, does not need a transition part such as a shaft sleeve and a cylindrical pin, is reliable in installation and is not easy to loosen. The ice making box limiting structure is different from the traditional single-position limiting structure, adopts double limiting rib positions, and is even in stress, and stable and reliable in overturning and resetting.

Description

Ice making box turnover mechanism of ice making machine

Technical Field

The utility model belongs to the technical field of household refrigeration, and particularly relates to an ice making box overturning mechanism of an ice making machine.

Background

The turnover structure of the ice making box is mainly divided into a manual type and an electric type for realizing the ice removing effect. The manual overturning structure mainly drives a gear driving wheel through a connecting rod, and the driving wheel drives a driven wheel at one end of the ice making box to realize overturning of the ice making box, so that the process of removing ice is achieved. Simultaneously, the torsion spring is equipped with to the other end of ice making box, and when the upset was over, the user was released the hand, realized the reset of ice making box through the power of torsion spring. The electric turnover structure is mainly characterized in that a convex key is arranged on a motor shaft, the fixing mode is a screw, the convex key is matched with a spline hole at one end of the ice making box, and the motor is operated to drive the ice making box to turn over. In addition, the other end of the ice making box is of a shaft sleeve matching structure, friction force in the rotation process of the ice making box can be reduced, and stability is improved.

However, the manual type overturning structure has the advantages that the user can realize ice removal only by increasing the torsion force to overcome the deformation force of the ice making box and the torsion force of the torsion spring in the use process, and meanwhile, the overturning angle is relatively large, so that the use is inconvenient. The electric turnover structure can replace manual operation, but the structural parts are complex, the shaft sleeve structure is used, and the positioning requirement and the manufacturing cost are high. Therefore, in order to solve the above-mentioned problems, it is necessary to provide a novel ice making box turnover mechanism.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an ice making box turnover mechanism of an ice making machine, which does not need a shaft sleeve structure, has simple structure, convenient use and low manufacturing cost.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

an ice making box turnover mechanism of an ice maker comprises an ice maker shell, an ice making box and a motor. The motor is fixedly arranged at one end of the ice maker shell, the ice making box is arranged in the ice maker shell, the ice making box and the ice maker shell can rotate relatively, and one end of the ice making box is connected with a motor shaft of the motor.

Further, a first mounting hole of the ice maker shell is formed in one end of the ice maker shell, and an ice maker box mounting column is formed in one end of the ice maker box; when the ice making box is turned over, the ice making box mounting column rotates in the first mounting hole of the ice maker case.

Further, the other end of the ice maker shell is provided with a second installation hole of the ice maker shell, and the other end of the ice maker box is provided with an ice maker box installation spline hole; the motor also comprises a motor spline, and the motor spline is arranged on the motor shaft; the motor spline is inserted into the ice making box installation spline hole through the ice making machine shell second installation hole.

Further, the ice making box overturning mechanism of the ice making machine further comprises a signal control unit, and the signal control unit is used for controlling the motor to rotate and stop.

Further, the ice making box mounting spline hole is a waist-shaped hole, and the motor spline is a waist-shaped hole.

Further, a pair of ice maker shell limit ribs are arranged on the ice maker shell, and a pair of ice maker shell limit ribs corresponding to the ice maker shell limit ribs are arranged on the ice maker shell.

Further, the ice making box turnover mechanism of the ice making machine further comprises a temperature sensor, and the temperature sensor is connected with the signal control unit.

Still further, temperature sensor includes temperature sensor plug, the motor includes motor plug, temperature sensor plug and motor plug all with signal control unit connects.

Still further, temperature sensor still includes temperature sensor pencil, be the motor splined hole that link up in the middle of the motor spline, temperature sensor pencil passes motor splined hole and ice making box installation splined hole.

Further, the motor further includes a motor mounting post that is fitted with the ice maker case second mounting to mount the motor to the ice maker case.

The ice making box turnover mechanism of the ice making machine disclosed by the utility model has the advantages that the motor is convenient to install and position, and screws are not needed. The motor can automatically turn over according to the signal, and the motor stops working according to the rotation, the blocking rotation, the reverse rotation, the blocking rotation and the blocking rotation in each action process. The motor spline is different from the traditional D-shaped structure, adopts a waist-shaped double-flat-position positioning structure, does not need a transition part such as a shaft sleeve and a cylindrical pin, is reliable in installation and is not easy to loosen. The ice making box limiting structure is different from the traditional single-position limiting structure, adopts double limiting rib positions, and is even in stress, and stable and reliable in overturning and resetting.

Drawings

FIG. 1 is an exploded view of the structure of an ice making housing tilting mechanism of an ice maker according to the present utility model;

FIG. 2 is another angular exploded view of the ice cube turning mechanism of the ice maker of the present utility model;

in the figure: 1. the ice maker comprises an ice maker shell, 11, an ice maker shell first mounting hole, 12, an ice maker shell second mounting hole, 13, a motor mounting clamping groove, 14, an ice maker shell positioning column, 15, an ice maker shell limit rib, 2, an ice making box, 21, an ice making box mounting column, 22, an ice making box mounting spline hole, 23, an ice making box buckling position, 24, an ice making box limit rib, 3, a motor, 31, a motor mounting column, 32, a motor spline, 33, a motor buckle, 34, a motor positioning hole, 35, a motor plug, 36, a motor spline hole, 4, a temperature sensor, 41, a temperature sensor harness, 42, a temperature sensor plug, 5, a sensor cover plate, 51, a sensor cover plate buckle, 6 and a PCB.

FIG. 3 is a schematic diagram of the overall structure;

FIG. 4 is a schematic diagram of a temperature sensor harness installation path;

FIG. 5 is a schematic view of a first mounting hole of the icemaker case;

FIG. 6 is a schematic view of ice making housing mounting splined holes;

fig. 7 is a schematic diagram of a motor mounting post and spline.

Detailed Description

The utility model provides an ice making box turnover mechanism of an ice making machine, which is described in detail below with reference to the accompanying drawings. In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "left", "right", "upper", "lower", "bottom", etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and are not intended to indicate or imply that the apparatus or element to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and "first", "second", etc. do not represent the importance of the parts and thus are not to be construed as limiting the present utility model. The specific dimensions and numerical values adopted in the embodiment are only for illustrating the technical scheme, and do not limit the protection scope of the utility model.

As shown in fig. 1 and 2, an ice making case tilting mechanism of an ice maker includes an ice maker case 1, an ice making case 2, and a motor 3. The motor 3 is fixedly arranged at one end of the ice maker shell 1, the ice making box 2 is arranged in the ice maker shell 1, the ice making box 2 and the ice maker shell 1 can rotate relatively, and one end of the ice making box 2 is connected with a motor shaft of the motor 3.

Specifically, the icemaker case 1 is provided at the left end thereof with the icemaker case first mounting hole 11, and the icemaker case 2 is provided at the left end thereof with the icemaker case mounting post 21. The ice making housing mounting post 21 is inserted into the ice making housing first mounting hole 11, and rotates in the ice making housing first mounting hole when the ice making housing is turned over.

The ice maker case 1 is provided at the right end thereof with an ice maker case second mounting hole 12, and the ice maker case 2 is provided at the right end thereof with an ice maker case mounting spline hole 22. The motor 3 further comprises a motor spline 32, the motor spline 32 being mounted on the motor shaft. The motor spline 32 is inserted into the ice making housing mounting spline hole 22 through the ice making housing second mounting hole 12. For reliable installation of the spline and the spline hole, the ice making housing installation spline hole 22 is a kidney-shaped hole and the motor spline 32 is a kidney-shaped hole.

In order to limit the rotation range of the ice making housing 2, a pair of ice making housing limit ribs 15 are provided on the ice making housing 1, and a pair of ice making housing limit ribs 24 corresponding to the ice making housing limit ribs 15 are provided on the ice making housing 2.

In order to control the motor to rotate and stop, the ice making box overturning mechanism of the ice making machine further comprises a signal control unit, and in the embodiment, the signal control unit selects a PCB. The motor 3 is provided with a motor plug 35, and the motor plug 35 is connected with the PCB 6.

In order to precisely control the ice making housing 2 to automatically turn over when the temperature of the ice making housing 2 reaches a specific temperature, for example, after-15 ℃, the ice making housing turning mechanism of the ice maker of the present embodiment further includes a temperature sensor 4. The temperature sensor 4 includes a temperature sensor harness 41 and a temperature sensor plug 42. The temperature sensor plug 42 is connected to the PCB 6 and feeds back a temperature signal to the PCB 6.

In the middle of the motor spline 32 is a through motor spline hole, and the temperature sensor harness 41 passes through the motor spline hole and the ice making housing mounting spline hole 22. The temperature sensor 4 is placed on the sensor cover plate 5, and the sensor cover plate buckle 51 of the sensor cover plate 5 is matched with the ice making box buckling position 23 at the bottom of the ice making box 1, so that the temperature sensor 4 is installed and fixed.

In order to more firmly and accurately mount the motor 3 on the icemaker case 1, the motor 3 further includes a motor mounting post 31, a motor buckle 33, a motor positioning hole 34, and the icemaker case 1 further includes a motor mounting slot 13 and an icemaker case positioning post 14. The motor mounting posts are matched with the second mounting holes 12 of the ice maker housing, the four ice maker housing positioning posts 14 are inserted into the four positioning holes 34 of the motor, and the motor buckle 33 is buckled into the motor mounting clamping groove 13 at the top of the right end of the ice maker housing 1 to mount the motor 3 on the ice maker housing 1.

The following illustrates the operation of the ice making box tilting mechanism of the ice maker of the present embodiment: after the temperature sensor 4 detects the set temperature of minus 15 ℃, the ice making box 2 finishes ice making, the PCB 6 sends a signal to the motor 3, the motor 3 rotates and drives the ice making box 2 to turn down to the limit position to pour out ice, the motor 3 rotates in a locked mode and then drives the ice making box 2 to return to the initial position in a reverse mode, and the motor 3 stops rotating again and stops working.

Based on the description of the preferred embodiments of the present utility model, it should be clear that the utility model defined by the appended claims is not limited to the specific details set forth in the above description, but that many apparent variations of the utility model are possible without departing from the spirit or scope thereof.

Claims (10)

1. The ice making box turnover mechanism of the ice maker comprises an ice making machine shell, an ice making box and a motor, and is characterized in that the motor is fixedly arranged at one end of the ice making machine shell, the ice making box is arranged in the ice making machine shell, the ice making box and the ice making machine shell can rotate relatively, and one end of the ice making box is connected with a motor shaft of the motor.

2. The ice-making case tilting mechanism of an ice maker according to claim 1, wherein one end of the ice-making case is provided with a first mounting hole of the ice-making case, and one end of the ice-making case is provided with an ice-making case mounting post; when the ice making box is turned over, the ice making box mounting column rotates in the first mounting hole of the ice maker case.

3. The ice making case tilting mechanism of an ice maker according to claim 2, wherein the ice making case has a second mounting hole of the ice making case at the other end thereof, and an ice making case mounting spline hole at the other end thereof; the motor also comprises a motor spline, and the motor spline is arranged on the motor shaft; the motor spline is inserted into the ice making box installation spline hole through the ice making machine shell second installation hole.

4. The ice making housing tilting mechanism of an ice maker according to any one of claims 1 to 3, wherein said ice making housing mounting spline hole is a waist-shaped hole, and said motor spline is a waist-shaped hole.

5. The ice-making housing tilting mechanism of an ice-making machine according to claim 4, further comprising a signal control unit for controlling the motor to rotate and stop.

6. The ice-making case tilting mechanism of an ice maker according to claim 4, wherein a pair of ice-making case stopper ribs are provided on the ice-making case, and the ice-making case is provided with a pair of ice-making case stopper ribs corresponding to the ice-making case stopper ribs.

7. The ice-making housing tilting mechanism of an ice-making machine according to claim 5, further comprising a temperature sensor connected to said signal control unit.

8. The ice-making housing tilting mechanism of an ice-making machine according to claim 7, wherein said temperature sensor comprises a temperature sensor plug, said motor comprises a motor plug, and both said temperature sensor plug and said motor plug are connected to said signal control unit.

9. The ice making housing tilting mechanism of ice making machine of claim 8, wherein said temperature sensor further comprises a temperature sensor wire harness, said motor spline being centrally located with a through motor spline hole, said temperature sensor wire harness passing through the motor spline hole and the ice making housing mounting spline hole.

10. The ice-making housing tilting mechanism of an ice maker of claim 4, wherein the motor further comprises a motor mounting post that cooperates with the ice-making housing second mount to mount the motor to the ice-making housing.