KR20110130241A - Interval controlling structure for dehydrator - Google Patents

Abstract

PURPOSE: The interval adjusting structure of a dehydrator is provided to easily implement an interval adjusting operation without the separation of a perforated net and the replace of a compressive screw. CONSTITUTION: A rotary shaft is protruded and expanded from the outer side of an inlet(111) and an outlet(112) of a housing. One end of the rotary shaft is combined with an axis connecting booth(140) of a pre-set length. The axis connecting booth is combined with one side of a driving motor(101). Another end of the rotary shaft is inserted into a lock lead(150) and is supported. A first adjusting nut is formed at end of the rotary shaft. A second adjusting nut is formed at one side of the rotary shaft. When the first adjusting nut adjusts, the rotary shaft moves to the right side. When the second adjusting nut adjusts, the rotary shaft moves to the left side.

Description

Interval controlling structure for dehydrator

The present invention relates to a spacing control structure of the dehydrator, and more particularly, a spiral rotating blade formed on the outer circumferential surface of the rotary shaft and a perforated network formed on the outer side of the compression screw by moving the center of the rotating shaft of the compression screw formed in a tapered shape in the advancing direction. By adjusting the interval of the long-term use of the rotary blades worn out to adjust the gap between the perforated network and without the need to replace the compression screw or separate the perforated network to facilitate the adjustment of the gap between the compression screw and the perforated network It relates to a spacing control structure of the dehydrator.

In general, food waste, sludge, and livestock waste (hereinafter referred to as 'waste') contain a large amount of water, and water must be removed to landfill, incinerate, or recycle them. Is being used.

Such a dehydrator includes a housing having an inlet formed at an upper portion of one end, and having a predetermined space formed at a side of the other end; An outlet having an outlet formed in an outlet of the housing, the hole formed in communication with the outlet, and having an outlet formed at a lower portion thereof; A perforating network having a cylindrical shape installed in the housing and having a drainage hole in the cylindrical surface; A compression screw having one end penetrated through the discharge cylinder, installed inside the perforating network, and the other end installed at the inlet side of the housing and having a spiral rotary blade formed on the outer circumferential surface of the rotating shaft rotated by the drive motor; It is configured to include.

And as shown in FIG. 1, the lower portion of the perforated network 30, the plurality of height adjusting holes 70 for the interval between the compression screw 20 and the perforated network 30 and the horizontal adjustment of the perforated network 30 Is formed, the height adjustment device 70 is fixed to the bolt on the bottom of the housing 10 and by forming a bolt hole in the support installed on the lower portion of the perforated network 30 by adjusting the height of the nut tightened on the bolt The height is configured to be adjusted.

However, as described above, the spacing control structure of the conventional dehydrator adjusts the height of the perforated network according to the dehydration amount of the waste to adjust the spacing of the compressed screw and the perforated network, and the rotary blade of the compressed screw by waste for a long time use. When the wear is worn out, the waste is not compressed properly, so in order to adjust the gap between the rotary blade and the perforated net, the assembly bolts of the perforated net are dismantled to replace or remove the liner, and the perforated net and the compression screw are replaced. there was.

Therefore, the present invention is to solve the above problems, by moving the center of the rotation axis of the compression screw formed in the tapered shape in the advancing direction the gap between the spiral rotating blade formed on the outer peripheral surface of the rotation shaft and the perforated network formed on the outside of the compression screw The dehydrator allows for easy adjustment of the distance between the compression screw and the perforation network without replacing the compression screw or separating the perforation network for adjusting the gap between the perforation network due to the rotary blade worn after being used for a long time. The purpose is to provide a spacing structure.

The spacing control structure of the dehydrator according to the present invention for achieving the above object, the housing having a predetermined space in which the inlet is formed on the upper end of one end, the outlet is formed on the side of the other end; A perforated network having a drainage hole formed on an outer circumferential surface thereof in a tapered shape provided in the housing; A tapered shape in which one end portion penetrates the discharge port of the housing and is installed in the perforated network, and the other end is installed at the inlet side of the housing and a spiral rotary blade is formed on the outer circumferential surface of the rotating shaft rotated by the drive motor. In the dehydrator configured to include, the rotating shaft is protruded and extended a predetermined length on the outside of the inlet and outlet of the housing, one end of the rotating shaft to one side of the drive motor to secure the moving distance of the rotating shaft The other end of the rotary shaft is coupled to the fixed length of the coupling shaft, and the other end of the rotary shaft to be interpolated and supported, the first adjustment nut is formed at the end of the rotary shaft interpolated in the lock lead and the second side on one side of the rotary shaft When the adjusting nut is formed to adjust the first adjusting nut, the rotating shaft moves to the right and the second adjusting nut When adjusting the adjustment nut is characterized in that the rotating shaft is configured to move to the left.

As described above, the present invention moves the center of the rotating shaft of the compression screw formed in the tapered shape in the advancing direction to adjust the interval between the spiral rotating blade formed on the outer circumferential surface of the rotating shaft and the perforated network formed on the outer side of the compression screw. Therefore, it is a very useful invention to easily adjust the gap between the compression screw and the perforated network without replacing the compression screw or separating the perforated network for the gap gap with the perforated network.

1-a cross-sectional view of a conventional dehydrator.
2-side cross-sectional view of FIG.
3 is a cross-sectional view showing a spacing control structure of the dehydrator according to the present invention.
4-an enlarged view of a portion of FIG.

The above and other objects, features, and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

The spacing control structure of the dehydrator according to the present invention, the housing 110 having a predetermined space in which the inlet 111 is formed on the upper end of one end, the outlet 112 is formed on the side of the other end; A perforating network (120) having a drainage hole formed on an outer circumferential surface thereof in a tapered shape provided in the housing (110); One end is installed through the outlet 112 of the housing 110, is installed in the perforated network 120, the other end is installed on the inlet side of the housing 110 to rotate by the drive motor 101 In the dehydrator configured to include a tapered compression screw 130 formed by forming a spiral rotating blade 132 on the outer circumferential surface of the rotating shaft 131, the rotating shaft 131 is an inlet (of the housing 110) 111 and a predetermined length protruding and extending outside the outlet 112, one end of the rotary shaft 131 of the predetermined length coupled to one side of the drive motor 101 to secure the movement distance of the rotary shaft 131 Is coupled to the shaft connecting booth 140, the other end of the rotary shaft 131 is to be interpolated and supported by the lock lid 150, the first adjustment nut at the end of the rotary shaft 131 inserted into the lock lid 150 160a is formed and the second adjustment nut 160b on one side of the rotation shaft 131 Is the first adjustment nut (160a), the rotatable shaft 131 at the time of adjusting the form and move to the right when adjusting the second adjusting nut (160b) is configured to move the rotation shaft 131 is to the left.

The drive motor 101 is configured to rotate the rotating shaft 131, and composed of a reducer 101a and a worm reducer 101b coupled to the reducer 101a by a pulley for smooth rotation of the rotating shaft 131. do.

In addition, the rotation shaft 131 protrudes and extends a predetermined length outside the inlet 111 and the outlet 112 of the housing 110, which is an important component of the present invention for moving the rotation shaft 131 from side to side. This is to secure the flow distance.

To this end, as shown in the figure, one end of the rotary shaft 131 protruded and extended at the inlet 111 side of the housing 110 is coupled to the shaft connecting booth 140 having a predetermined length, the shaft connecting booth The end of the 140 is coupled to the drive shaft of the drive motor 101, that is, the worm reducer 101b. At this time, it will be obvious that the flange 141 may be fastened for the firm coupling of the shaft connecting booth 140.

The other end of the rotating shaft 131 is protruded and extended to the outlet 112 side of the housing 110 to be interpolated and supported by the lock lid 150. In this case, the support frame 151 is attached to the bottom of the lock lid 150. ) Is formed and the support frame 151 is fixed to the base 152.

A first adjustment nut 160a is formed at an end of the rotation shaft 131 interpolated in the lock lid 150, and a second adjustment nut 160b is formed at one side of the rotation shaft 131. The nut 160a is for adjusting the rotation shaft 131 to the right and the second adjustment nut 160b is for adjusting the rotation shaft 131 to the left.

That is, when the rotary blade 132 of the compression screw 130 is worn out due to long-term use, and the dehydration efficiency is reduced, the rotary shaft 131 is moved to a right length by a certain length to dehydrate the interval between the rotary blade 132 and the perforated network 120. In addition, the rotation shaft 131 can be moved from side to side through the first and second adjustment nuts, and thus the gap between the rotary blade 132 and the perforation network 120 can be adjusted without separation. You can easily adjust.

As described above, the present invention has been described by means of a limited embodiment, but the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains to the technical spirit of the present invention and claims to be described below. Various modifications and variations are possible within the scope of equivalents.

* Description of the symbols for the main parts of the drawings *
101: drive motor 110: housing
111: inlet 112: outlet
120: perforated network 130: compression screw
131: rotating shaft 132: rotary blade
140: shaft connection booth 141: flange
150: Locked 151: support frame
152: base 160a: first adjusting nut
160b: 2nd adjusting nut

Claims (1)

An inlet 111 is formed in an upper portion of one end portion, and a housing 110 having a predetermined space in which an outlet 112 is formed at a side of the other end portion; A perforating network (120) having a drainage hole formed on an outer circumferential surface thereof in a tapered shape provided in the housing (110); One end is installed through the outlet 112 of the housing 110, is installed in the perforated network 120, the other end is installed on the inlet side of the housing 110 to rotate by the drive motor 101 In the dehydrator configured to include; a tapered compression screw 130 formed by forming a spiral rotating blade 132 on the outer circumferential surface of the rotating shaft 131,
The rotary shaft 131 protrudes and extends a predetermined length to the outside of the inlet 111 and outlet 112 of the housing 110, one end of the rotary shaft 131 to secure the moving distance of the rotary shaft 131 Is coupled to the shaft connection booth 140 of a predetermined length coupled to one side of the drive motor 101, the other end of the rotary shaft 131 is to be interpolated and supported by the lock lid 150, the lock lid 150 A first adjustment nut 160a is formed at the end of the interpolated rotation shaft 131 and a second adjustment nut 160b is formed at one side of the rotation shaft 131 to adjust the first adjustment nut 160a. The rotating shaft 131 is moved to the right and when adjusting the second adjusting nut (160b), the rotating shaft 131 is configured to move to the left, characterized in that the spacing structure of the dehydrator.

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