JP2015206534A - Broken ice size adjustment mechanism of ice making machinery and ice making machinery - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable broken ice sizes to be adjusted in more stages by a convenient mechanism.SOLUTION: A broken ice size adjustment mechanism of an ice making machinery comprises a comb part 6 arranged to be freely in contact with/separated from a breaking part 4; a feeding screw 10 having a rotary axis coinciding with the contact/separation direction; a nut 11 screwed-in with the feeding screw 10; a guide member 12 moved with the nut 11 in the contact/separation direction and provided with the comb member 6 at its extremity end; and a ball plunger screw 14a fitted into a screw groove 10a of the feeding screw 10 or abutted against a screw side surface 10b. A ball 15 in the plunger screw 14a is fitted into the screw groove 10a of the feeding screw 10 to cause a broken ice size to be set and in turn the feeding screw 10 is rotated around its axis against this biasing force until the ball 15 is fitted into the adjoining screw grooves 10a, a broken ice size is adjusted in multi-stages in response to the number of threads formed at the feeding screw 10.

Description

  The present invention relates to an ice breaker size adjusting mechanism for adjusting an ice breaker size and an ice breaker size adjustment in an ice breaker provided in an ice making machine, which breaks ice cubes made to a predetermined size into smaller size ice breakers. The present invention relates to an ice making machine equipped with a mechanism.

  As an ice making machine equipped with an ice crusher that crushes ice cubes of a predetermined size into smaller crushed ice, there is one having a configuration shown in Patent Document 1, for example. The ice making machine includes an ice hopper that stores ice cubes that have been made to a predetermined size, an ice breaker that crushes ice cubes supplied from the ice hopper, and an ice storage chamber that stores ice breaks crushed by the ice breaker. And.

  The ice crusher includes a rotating cutter having a crushing blade and a toothed moving rack provided so as to be opposed to and away from the rotating cutter (see FIG. 6 of this document). By operating the lever connected to the outside of the toothed mobile rack via a parallel link to the left and right, the distance between the rotary cutter and the toothed mobile rack is increased to increase the ice breaking size. The ice size is reduced by reducing the distance between the mobile rack and the attached rack. The position of the lever is fixed by fitting the lever into a recess formed in the guide plate (see FIG. 7 of this document). The number of adjustment steps of the ice breaking size is determined by the number of the concave portions, and is, for example, three in the configuration described in FIG. 7 of this document.

Registered Utility Model No. 2588479

  The ice breaking size adjusting mechanism shown in Patent Document 1 has a toothed moving rack that is in contact with and separated from the rotating cutter via a parallel link, and thus the number of parts constituting the mechanism is large and the structure is complicated. For this reason, there is a problem that the manufacturing cost increases and the risk of occurrence of defects increases. In addition, since a large load is applied to the toothed moving rack during ice breaking, it is necessary to provide the lever for fixing the position of the toothed moving rack with sufficient rigidity, and the lateral width of the lever cannot be reduced so much. For this reason, when the size of the guide plate is taken into consideration, the number of steps for adjusting the ice breaking size is limited to about three at most, and there is a problem that it is difficult to increase the number of stages further.

  Accordingly, an object of the present invention is to make it possible to adjust the size of the crushed ice in a multistage manner with a simple mechanism.

  In order to solve the above-mentioned problems, the present invention faces a crushing portion that crushes ice cubes, and includes a comb portion that is provided so as to be able to come in contact with and separate from the crushing portion, and a multi-strip that has a rotating shaft that matches the contact and separation direction of the comb portion A feed screw having a screw; a nut to be screwed into the feed screw; and provided at the nut and moving in the contact / separation direction together with the nut as the feed screw rotates about the shaft. An ice breaker size adjusting mechanism for an ice making machine, comprising: a guide member including: a contact member that fits into a thread groove of the feed screw or abuts against a screw side surface as the feed screw rotates about an axis. did.

  Thus, by adopting a feed screw having a rotating shaft that matches the contact / separation direction of the comb portion, a link mechanism for converting the operating direction of the ice breaking size adjusting mechanism to the contact / separation direction becomes unnecessary, and its configuration Becomes simple. For this reason, the manufacturing cost can be reduced.

  Further, by forming a multi-threaded screw on the feed screw, the number of steps for adjusting the ice breaking size can be freely set. For example, when a 6-thread screw is formed on the feed screw, the contact member is fitted into the thread groove 6 times while the feed screw is rotated once around the axis, that is, every time the feed screw is rotated 60 degrees, the contact member Can be fitted into the thread groove. For example, when the comb portion at the tip of the guide member moves through the entire stroke (from the state in which the crushing portion and the comb portion are most separated to the state in which the comb portion is closest) during one rotation of the feed screw, the number of adjustment steps of the comb portion is six. As a result, the ice breaking size can be adjusted more finely than in the past. The number of threads of the multi-thread can be appropriately changed according to the number of adjustment stages of the ice break size.

  In the above configuration, it is preferable that the contact member is a ball plunger screw including a ball and a biasing member that biases the ball toward the distal end side.

  By causing the ball plunger screw ball to be fitted into the thread groove of the feed screw and biasing the ball toward the thread groove by the biasing member, inadvertent rotation of the feed screw is prevented. For this reason, the crushed ice of a predetermined size can be manufactured stably. Further, by rotating the feed screw against the urging force of the urging member, the ball retreats into the ball plunger screw and comes into contact with the screw side surface. In this way, the ice breaking size can be adjusted smoothly by continuously fitting the ball into the screw groove and withdrawing the ball as the feed screw is rotated.

  This invention faces a crushing part for crushing ice cubes, a comb part provided so as to be able to come in contact with and away from the crushing part, and a feed screw that forms a multi-thread screw having a rotating shaft that matches the contact and separation direction of the comb part, A nut that is screwed into the feed screw, a guide member that is provided on the nut and moves in the contact / separation direction together with the nut as the feed screw rotates about the axis, An ice breaker size adjusting mechanism of an ice making machine having an abutting member that fits into the thread groove of the feed screw or abuts against the side surface of the screw as the screw rotates about the axis of the screw. By adopting a feed screw that forms a multi-thread screw having a rotation axis that matches the contact and separation direction of the comb portion, a link mechanism for converting the operation direction of the ice breaking size adjusting mechanism to the contact and separation direction becomes unnecessary, The configuration can be simplified. Further, by forming a multi-threaded screw on the feed screw, the number of adjustment stages of the ice breaking size can be freely set corresponding to the number of the multi-threaded threads.

The longitudinal cross-sectional view which shows the ice breaker provided with the ice break size adjustment mechanism which concerns on this invention The ice breaking size adjustment mechanism which concerns on this invention is shown, (a) is a top view, (b) is a front view, (c) is a side view. The perspective view which shows the ice breaking size adjustment mechanism which concerns on this invention Side view showing the main part of the ice breaking size adjusting mechanism according to the present invention Exploded perspective view of an ice breaker equipped with an ice breaker size adjusting mechanism according to the present invention The perspective view which shows the state which incorporated the ice-breaking size adjustment mechanism which concerns on this invention in an ice-breaker The top view which shows the state which incorporated the ice-breaking size adjustment mechanism which concerns on this invention into an ice-breaker

  FIG. 1 shows an ice breaker 1 equipped with an ice breaker size adjusting mechanism of an ice making machine according to the present invention. This ice breaker 1 is provided between a square ice hopper 2 that stores ice cubes that have been made into a predetermined size (for example, 2 to 3 cm square) and an ice breaker hopper (not shown) that stores crushed ice. Is provided. The ice breaker 1 includes a crushing unit 4 having a crushing blade 3 that crushes ice cubes. This crushing part 4 is rotationally driven by the motor 5 in the direction of the arrow described in the figure. Comb portions 6 are provided so as to face the crushing portion 4 so as to be in contact with and away from the crushing portion 4 in the horizontal direction, and the crushing blades 3 pass between the combs of the comb portion 6. By increasing the distance between the crushing part 4 and the comb part 6, the ice breaking size can be increased, and by reducing the distance between the crushing part 4 and the comb part 6, the ice breaking size can be reduced. On the opposite side of the comb portion 6, a fixed comb portion 7 is provided. The fixed comb portion 7 has an action of preventing the ice cubes from falling into the ice hopper without being crushed from the gap between the crushing blades 3.

  As shown in FIG. 2 to FIG. 4, the ice breaking size adjusting mechanism includes a housing 9 fixed to the ice making machine body 8, and the housing 9 has a rotation axis that matches the contact / separation direction of the comb portion 6. A feed screw 10 in which a six-thread screw is formed is provided. A screw nut 11 a that is a kind of nut 11 is screwed into the feed screw 10. A guide member 12 having a comb portion 6 attached to the tip thereof is fixed to the screw nut 11a with a fixing screw 13.

  The housing 9 is provided with a ball plunger screw 14 a as the contact member 14 so as to be orthogonal to the feed screw 10. The ball plunger screw 14a includes a ball 15 at the tip, and a biasing member 16 that biases the ball 15 toward the tip. The ball 15 is fitted in the screw groove 10a of the feed screw 10 or is in contact with the screw side surface 10b (between adjacent screw grooves 10a and 10a).

  A knob 17 is provided on the front side of the ice making machine of the feed screw 10. The guide member 12 can be moved in the contact / separation direction together with the screw nut 11a by picking the knob 17 and rotating the feed screw 10 about its axis. By moving this guide member 12, the distance between the crushing blade 3 and the comb part 6 can be adjusted. Retaining rings 18, 18 are provided at both ends of the feed screw 10 (outside of the housing 9), and the relative positions between the feed screw 10 and the housing 9 are fixed (prevented from coming off) by the retaining rings 18. .

The ball 15 of the ball plunger screw 14a is urged toward the screw groove 10a by the urging member 16 while being fitted into the screw groove 10a of the feed screw 10, so that the relative positions of the crushing blade 3 and the comb portion 6 are increased. Is fixed. By this fixing, it is possible to continuously perform ice breaking of a predetermined size determined by operating the knob 17. Ball 15 screw groove 10a of the ball plungers screw 14a (e.g., the position of 10a ₁ in FIG. 4) from the state where fitted, when the screw 10 feed against the urging force of the urging member 16 is rotated, The ball 15 escapes from the screw groove 10a and comes into contact with the screw side surface 10b, so that the feed screw 10 can be easily rotated. When the feed screw 10 is rotated by a predetermined angle (60 degrees in the case of the feed screw 10 shown in FIG. 4), the ball 15 is another thread groove 10a (for example, FIG. 4) adjacent to the circumferential direction of the feed screw 10. fitted to 10a ₂ position) in, for biasing member 16 is pressed to urge the ball 15 in the screw grooves 10a, inadvertent rotation of the feed screw 10 is prevented. Further, when the ball 15 is fitted into the thread groove 10a, a click feeling is transmitted to the user's hand, so that the rotation operation can be reliably performed.

  The predetermined angle varies depending on the number of threads formed on the feed screw 10. For example, when a six-thread screw is formed, the ball 15 of the ball plunger screw 14a is fitted into the screw groove 10a six times while the feed screw 10 is rotated once around the axis. That is, the click feeling is obtained every time the feed screw 10 is rotated 60 degrees. Further, when the 8-thread screw is formed, the ball 15 is fitted into the screw groove 10a 8 times while the feed screw 10 is rotated once around the axis, that is, the click feeling is generated every time the feed screw 10 is rotated 45 degrees. can get. The number of strips can be determined as appropriate according to the number of steps for adjusting the ice size.

  By changing the pitch of the multi-thread screw formed on the feed screw 10 or the diameter of the feed screw 10, the amount of movement of the screw nut 11a (comb portion 6) when the feed screw 10 is rotated by a predetermined angle can be changed. it can.

  As shown in FIGS. 5 to 7, the ice break size adjusting mechanism is fixed to the ice making machine main body 8 with the comb portion 6 in a horizontal state.

  The above ice breaking size adjusting mechanism employs, for example, a feed screw 10 that forms a multi-threaded screw having a rotation axis that coincides with the approaching / separating direction of the comb portion 6, unlike the configuration driven via the parallel link described in Patent Document 1. As a result, the number of parts related to the configuration can be reduced. In addition, since the number of adjustment stages of the ice breaking size can be freely changed by changing the number of threads of the multi-thread screw, it has high convenience.

  Naturally, the ice breaking size adjusting mechanism according to the present invention can be mounted on an ice making machine, but it can also be applied to a refrigerator, a refrigerator, etc. having an ice making function in addition to an ice making machine.

  Further, the embodiment described above is merely an example, and the ice break size adjusting mechanism is configured as long as the problem of the present invention that enables the ice break size to be adjusted in multiple stages with a simple mechanism can be solved. The arrangement of each component, the shape of each component, and the like are allowed to be changed as appropriate.

DESCRIPTION OF SYMBOLS 1 Icebreaker 2 Square ice hopper 3 Crushing blade 4 Crushing part 5 Motor 6 Comb part 7 Fixed comb part 8 Ice making machine main body 9 Housing 10 Feed screw 10a Screw groove 10b Screw side surface 11 Nut 12 Guide member 13 Fixing screw 14 Contact member 14a Ball plan Jar screw 15 Ball 16 Biasing member 17 Knob 18 Retaining ring

Claims (3)

Coming to the crushing part (4) for crushing the ice cubes, the comb part (6) provided detachably from the crushing part (4),
A feed screw (10) formed with a multi-threaded screw having a rotation axis coinciding with the contact / separation direction of the comb portion (6);
A nut (11) screwed into the feed screw (10);
A guide member (provided with the comb portion (6) at the tip which is provided on the nut (11) and moves in the contact / separation direction together with the nut (11) as the feed screw (10) rotates about its axis). 12)
As the feed screw (10) rotates about its axis, an abutting member (14) that fits into the thread groove (10a) of the feed screw (10) or abuts against the screw side surface (10b);
The ice breaker size adjustment mechanism of the ice making machine.   The contact member (14) is a ball plunger screw (14a) comprising a ball (15) and a biasing member (16) for biasing the ball (15) toward the tip. The ice breaker size adjustment mechanism of the described ice making machine.   An ice making machine comprising the ice breaker size adjusting mechanism of the ice making machine according to claim 1 or 2.

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