KR200381045Y1 - Screw structures for compressed waste food dehydrator - Google Patents

Abstract

The present invention is to provide a screw member for the pressurized residual dehydrator which can easily manufacture a crimping screw regardless of the length and length of the screw and the number of spiral blades. A female and male connecting portion is formed at the front and rear ends of the plate-shaped screw member body with a shaft hole drilled at its center, and a spiral blade is formed on the outer circumferential surface of the screw member body where the circumference is equally divided. It features a screw member.

This screw member is connected to each other by rotating a number suitable for the rotating shaft for the compression screw of the remnant dehydrator according to the design site, and separates the joint part of the screw member main body or the joint part of the spiral member so that the spiral blades of adjacent screw members are connected. After the welding is easy to integrate and the front and rear end screw member is fixed to the rotating shaft by means of the endless rotation prevention means such as key to obtain the compression screw for the residual dehydrator.

Description

Screw structures for compressed waste food dehydrator

The present invention relates to a screw member for a pressurized residue dehydrator for dehydrating while transporting the residue collected in a restaurant to the compression screw, in particular, can easily produce a compression screw regardless of the number of long and short blades of the compression screw, The present invention relates to a screw member for a pressurized residual dehydrator that can be partially replaced.

The compression screw applied to the pressurized residual dehydrator such as Utility Model Registration No.332785 by the person is welded to maintain a constant pitch by inserting a spiral blade formed by bending a long steel sheet having a certain width into a spiral. Since the compression screw has a high difficulty of bending the spiral blade and welding the spiral blade to the rotating shaft, productivity is low and quality is difficult to maintain. This disadvantage is more spiral blades, the longer the screw is longer.

In addition, if a part of the spiral blade is severely damaged while dehydrating the residue, and the function is degraded, only the broken spiral blade cannot be replaced, so the entire crimping screw must be replaced. Replacing the whole crimping screw is a big waste in terms of resource savings, although the rest of the spiral can still be used.

Therefore, an object of the present invention is to provide a screw member for the residual dehydrator, which is easy to manufacture the crimping screw regardless of the number of spiral blades, regardless of the long and short.

Another object of the present invention is to provide a screw member for a compression residual screw that can replace a screw member including the spiral blade when it is broken.

These problems are provided in the center of the plate surface formed on one side, female and male connecting portions for connecting the other screw member to the front and rear ends of the plate-shaped ring-shaped screw member main body with a shaft hole, and the circumference of the screw member main body It can be achieved with a screw member having a spiral blade of the same shape wherever it is divided.

Insert the appropriate number of screw members into the female and male joints one by one in order to match the direction of the female and male connecting parts to the rotating shaft for the pre-manufactured crimping screw according to the design pole, so that the spiral blades of adjacent screw members are connected to form a spiral, When the joint between the joint and the spiral blade is integrated by partial welding or the like, and then fixed to the rotating shaft by means of a rotation preventing means such as a key, it becomes a compression screw for the residual dehydrator.

1 and 2, a female connecting portion 4 is formed around the front end of the plate-shaped ring-shaped screw member main body 1, and a male connecting portion 5 is formed around the rear end, and a plurality of outer peripheral surfaces of the screw member main body 1 are formed. The spiral blade 2 is formed radially, and the shaft hole 6 is perforated in the center while the boss 3 of the orthogonal direction is integrally formed at the front-end | tip.

In the screw member proposed in the present invention, the shorter the length of the spiral blades 2, the easier it is to integrate the welded spiral blades 2 to the screw member body 1 or to manufacture the spiral blade integrated screw member. In consideration of this point, the screw member main body 1 should have the same length as the spiral blade 2 of the short length which divided the spiral blade of 1 pitch into equal parts.

The length of the spiral blade 2 is equal to the width of the screw member main body 1 so that when screwing several screw members in a row to one rotation shaft, there is no gap between the spiral blades 2 so that a part of the residue is dehydrated. In the gap between the spiral blades (2).

The spiral blades 2 are shorter in length as the number of equal parts by one pitch increases, and the screw member main body 1 becomes narrower. If the spiral blades 2 are short and the screw member body 1 is also narrow, the spiral blades 2 and the screw member body 1 are separately manufactured and easily welded, and the spiral blades are screwed to the screw member body 1. (2) It is easy to manufacture the integrated casting.

The female connection part 4 is a part connected to the other screw member side male connection part arrange | positioned at that side, and the male connection part 5 is a part connected to the female connection part of the other screw member arrange | positioned at that side.

In Fig. 3, the rotary shaft A is fitted with a screw member in an acceptable number thereof. The fitting portion is the shaft hole 6. At this time, each screw member, the female connecting portion 4 and the male connecting portion 5 should be placed in the same direction, respectively. In this way, while inserting the screw member on the rotating shaft (A), the adjacent screw members are connected to the female connecting portion 4 and the male connecting portion 5 and at the same time so that the two spiral blades (2) to each other in the spiral direction.

When the screw members are connected in this way, the side without the boss 3 in each screw member is balanced by the boss 3 of the other screw member connected thereto, without balancing in the axial direction on the rotation axis A. .

It is difficult to ensure perfect posture stability and straightness maintenance only by the connection between the female and male connecting portions 4 and 5 between the screw members. This is because when the external force acts in the direction orthogonal to the circumferential direction or the axial direction of any screw member, there is a fear that the spiral that the spiral blade 2 extends outward from the rotating shaft A is disturbed. In consideration of this point, the joints between the screw member bodies 1 or the joints between the spiral blades 2 are welded to maintain integrity. Welding is beneficial when replacing screw members with spots that are easier to remove than full welding. Reference numeral B denotes a weld.

Along with this, when the top and last screw members are fixed to the rotating shaft A with the endless rotation preventing means C such as a key, a crimping screw 10 having a shape as shown in the example is obtained.

 After dehydrating the residue by applying the pressurized screw 10 to the remnant dehydrator, for example, if an abnormality is found in the third screw member (c) from the left side and a replacement is necessary, the left stepless rotation prevention means (C) of the figure is removed. Remove and separate the weld B of the fourth screw member (c, d) and then pull it out in the direction of the arrow "ga". After this removal, the welding part (B) of the second and third screw members (b, c) is removed to separate the problematic third screw member (c) and a new screw member of the same type is fitted to the rotating shaft (A). Subsequently, the 1st and 2nd screw members (a, b) are inserted, and each spiral blade (2) forms a spiral, and then the joints of the 2nd and 3rd screw members (b, c) and the 3rd and 4th screw members (c, (D) weld the joints. In this way, a broken screw member can be replaced simply.

4 is connected to the small diameter cylinder 10b with the discharge port 13 for residual dehydration at the rear end of the large diameter cylinder 10a having the residual inlet 12 in the vertical direction, and the large diameter cylinder 10a has a plurality of the present invention. It is an example of a residual dehydrator in which a compression screw 20 made of a spiral blade type screw member is installed and a small diameter cylinder 10b is provided with a general single-profit type compression screw 30. The lower half of the large-diameter cylinder 10a and the small-diameter cylinder 10b is made of a microperforated plate with fine holes perforated in order to enable dehydration of the remainder as in the prior art. Reference numeral 11 denotes a step between the large and small diameter cylinders 10a and b.

In the remnant dehydrator of such a structure, the amount of transfer of the residual plate per revolution by the plurality of spiral blades 2 having a large pitch of the crimping screw 20 is large and the conveyance progresses very quickly, but compared to the crimping screw 20. Since the pitch is small and the blades are singular, the amount of transfer of the residue is small and the feeding progresses slowly.

Residue that was quickly transferred in large quantities by the crimping screw 20 is dehydrated while being stopped by receiving the resistance due to the amount of feed and the speed difference between the step 11 and the crimping screw 30 at the time of being carried over to the small-diameter cylinder 10b. In this way, the remaining dehydrated to some extent is dehydrated even while passing through the small-diameter cylinder 10b to be discharged to the outlet 13.

As such, when the first half of the dehydrator is transported a large amount of residue quickly, and the second half is dehydrated primarily in the first half, the dehydrated dehydrated soil is slowly transferred to dehydrate the residue. It is effective for dehydration in a short time.

The technical idea of the present invention is also applied to a single spiral screw member.

As described above, the screw member for the pressurized residual dehydrator of the present invention is inserted into the rotating shaft so that the female and male connecting parts are in the same direction, and all spiral blades form a spiral, and the joint of the screw member or the joint of the spiral blade is separated. It is possible to achieve a crimping screw by welding well, and can be produced very easily regardless of the number of long and short blades of the crimping screw.

In addition, as the screw members can be spot welded and integrated, it is possible to replace only the broken screw member when some screw members are broken while performing the remaining plate dehydration operation with the residual dehydrator equipped with the compression screw applied thereto. As a result, the cost reduction effect is very large compared to the conventional replacement of the entire compression screw.

1 is a perspective view of a screw member for the pressurized residual dehydrator according to the present invention

Figure 2 is a partial partial incision front view

Figure 3 is a partial cutaway front view of the compression screw made of a screw member of the present invention

Figure 4 is an application example of the present invention for the compression residual dehydrator

<Description of the symbols for the main parts of the drawings>

1: screw member body 2: spiral blade

3: boss 4: female connection

5: male 6: shaft

A: axis of rotation B: welding

Claims (1)

A shaft hole 6 is drilled in the boss 3 formed on one side of the screw member main body 1, and a spiral blade 2 is formed on the outer circumferential surface of the screw member 1 where the circumference is divided into equal parts. A screw member for a pressurized residual dehydrator, characterized in that a female connecting portion (4) and a male connecting portion (5) are formed at the front and rear ends of the main body (1).